3 - AutomationDirect
Contents
1. 9 2 0 36 89 3 5 hi 8 1 0 32 a Terminator I O Input points arasan O e ele e e e e e e e e e o e o o H x 0 1 2 314 5 6 7 8 9 10 1112 1314 15 c ojojojojojojojojojo ofo 0G Fuse o iha sj 4 s s zh e e tof 1 12 18 14 15 2 n Commons not isolated 0123 4 5 6 7 8 9 10 11 12 13 14 15 4 Wire ejejeje ejejerle ejejeleje e e o Ze 9IQ OOr O 09 9 9 9 0 0 9 OUO Current COMO COM1 COM 2 COM3 Transmitter guru Transmitter oOoSooooooGocoocoooGe 2 OOSOOOOSSOSOSSOoOSSS Lr GCG LK GVG GS GV OG GEgg Y olle ct ea Ca V2 V3 O 8 1 0 32 VoF LOJ Note V 0 and Note V 2 and V 3 internally V 1 internall i Module Supply o y connected to Commons mm in 24 VDC lt 83 3 3 28 NOTES 1 Shields should be grounded at the signal source o 2 More than one external power supply can be used provided all the power supply commons are connected 3 A Series 217 0 032 A fast acting fuse is recommended for 4 20 mA current loops 4 If the power supply common of an external power supply is not co2. module to the I O base to properly identify the 9 0 36 893 5 terminal points 2 0 32 Output Points Terminator MO 9 O O O O O O O O O O O O O O O 9 0 1 1 2 2 3 3 4 4 5 5 6 6 7 7 T1H 08TDS LUJ OlLz T B pjujdjd O d D H D D B CO CO ai 5 36vDC Em L L Sourcing L zr Sinking 5 Examples L L Examples o 1 2 3 4 5 6 7 g 0 1 2 3 4 5 6 7 Xp 5 36VDC 0000000009090 O0 090900 J E c NES S SYS KG KFS VS VS GSVg ey e e eje eje e e e e e e e e e e ESLSS99999999999999 T 999999999999999 J l O J l 5 j 8 1 0 32 USER BUS 1 USER BUS 2 e 83 3 3 28 gt mm in ojo ojojo ojojojojo o O O O O O No connection The 8 User Bus 1 terminals are Oo bussed together The 8 User Bus 2 terminals are also bussed together mf Equivalent Output Circuit ichs Side View Sourcing High Side Switching HN CET Sinking Low Side Switching Inernal Module Circuitry Inernal Module Circuitry com m L COM I
3. Dimensions 9 2 0 36 gt k 48 1 89 gt 8 1 0 32 9 lt Terminator O RJ 45 vat 3 connector P ETHERNET PORT OO ERnon N e d Ethemet Base Controller D 2 3 e o Udo B RJ 12 mu ERR Serial Port 7 PULL TO UNLOCK may Lea Address Switches mm in T1K EBC Ethernet Port Pinout Patch Straight through Cable Crossover Cable EBC HUB EBC PC OR WHT OR WHT OR WHT GRN WHT TD 1 TOR og 1 RD TD 1 og GRN 1 TD TD 2 2 RD TD 2 2 TD RDi 3 GENNWHT GRNNWHT TD RD 3 GRNWHT ORWHT 5 7 s BLUANHT BLU WHT GRN GRN GRN OR RD 8 BRN WHT BRNIWHT SMS m pos a BRN BRN g 8 8 RJ 45 RJ 45 RJ 45 RJ 45 This diagram illustrates the standard wire positions in the RJ 45 connector We strongly reccommend that you use Category 5 or better UTP cable T1K EBC Serial Port Pinout 10BaseT RJ 12 Serial Port Pin Descriptions Pin Signal Definition OV Power connection GND 5V Power connection RXD Receive Data RS 232C TXD Transmit Data RS 232 12345678 123456 RS 2320 5V Request to send 8 pin RJ 45 connector 6 pin RJ 12 connector OV Clear to Send 8P8C Terminator Installation and I O Manual 3rd Edition 3 231 Chapter 3 I O Wiring and S
4. _ A L889 8 989PSPSVSVSSIg leis oie eirieeleisieeleiz2 H SE i vo V1 v2 V3 8 1 0 32 O O V 0 V 3 not used with AC Output Modules y LJ LJ mm in Date Code 012 and Later k 83 3 3 28 Derating Chart Points fo 16 OSA 0 75A 12 8 4 1 0A 9 T T T T gt 0 10 20 30 40 50 55 C 32 50 68 86 104 122 131 F Ambient Temperature C F Side View Equivalent Output Circuit f Internal Module Circuitry l Output V i o E 1 EET mu i i L l Rey TolED IMMNNN 10A ee 4 9 o Optical Isolator 17 240 VAC COM Terminator Installation and I O Manual 3rd Edition 3 63 Chapter 3 I O Wiring and Specifications T1K 08TAS AC Output Specifications Outputs Per Module 8 Commons Per Module 8 1 pt common isolated Operating Voltage Range 17 240 VAC 47 63 Hz Output Voltage Range 15 264 VAC 47 63 Hz min max Max Load Current 2A pt common subject to derating ON Voltage Drop 1 5 VAC Q 50 mA 4 0 VAC Q 50 mA Max Leakage Current 4 mA Q 264 VAC Max Inrush Current 10 A for 10 ms Min Load 10 mA OFF to ON Response 1ms ON to OFF Response lt 1 ms 1 2 cycle Base Power Requirements 300 mA Q 5 VDC Status Indicators Logic Side FU1 FU2 ON fuse 1 or 2 blown Error Status Ind
5. mm in Equivalent Output Circuit PNE phi eben NR lt 833 3 28 Internal Module Circuitry f o Output V x i T j ToLED A 10A Esos mum O jo a yb NR Side View Typical Relay Life Operations Derating Chart at Room Temperature Points i 8 Voltage amp Load Current n Type of Load 1A 2A 5A 24 VDC Resistive 1000 K 500 K 200 K 7 24 VDC Solenoid 300 K 100 K E 2 110 VAC Resistive 1000 K 500 K 200 K 0 SS 110 VAC Resistive 300K 100 K 32 5 6 a 104 122131 F 220 VAC Resistive 500 K 250 K 125 K Aee TETOS VOLE 220 VAC Resistive 300 K 100 K m Solenoid inductive loads 2A cannot be used Terminator Installation and I O Manual 3rd Edition 3 71 Chapter 3 I O Wiring and Specifications T1F 08AD 1 8 Channel Current Analog Input Specifications Number of Channels 8 single ended 1 common Input Ranges 0 20 mA 4 20 mA 20 to 20 mA Resolution 14 bit 13 bit plus sign bit Frequency Response 3 db 500 Hz 20 db decade Input Resistance 250 Q Absolute Maximum Ratings 8V max Input Normal Mode 5 ms per channel Conversion Time Fast Mode 0 5 ms per channel Fast Mode supported in Default Normal Mode module hardware version B or l
6. 9 2 0 36 gt 89 3 5 8 1 0 32 7 i Terminator I O Input points O 9 O OjO O O O O O O O O O O O O TIK 16NA 1 E 01 2 3 4 516 7 8 9 10 11 12131415 ei D us m T O 64 77 7 77 o at a sj 4 s e zl e s 10 td 14 tab 1al is 0 12 3 4 5 6 7 8 9 10 11 12 13 14 15 Ei 0000000000000000 S SK YC VSS VV OSVVVggsg z SYSVVSVSg SVYGSSVVgg i o0jo0j6jo ojo o o jojo O o OJO OJO a SS II EISE VO V1 V2 V3 E J E 3 LO J LO J V 0 V 3 not used with AC Input Modules mm in Points Derating Chart I lt SB 3 28 gt en _ __ _ o 124 T fal I 9 T T T 5 0 10 20 30 40 50 55 C 32 50 68 86 104 122131 F ES Ambient Temperature C F Side View Equivalent Input Circuit ee Internal Module Circuitry Wo wo Input Ll 1 a i e Eis cias pa hai 1 D L 2 h A Vox E a To LED J ET ES Optical Isolator 90 120 vac COM i Terminator Installation and I O Manual 3rd Edition 3 49 Chapter 3 I O Wiring and Specifications T1K 08TD1 DC Output Specifications Outputs Per Module 8 sink Commons Per Module 2 internally connected EH Operating Voltage Range 6 27 VDC Output Voltage Range 5 30 VDC min max Peak Voltage 50 VDC Max Load Current 1A pt 4A common Max Leakage Current 15 uA
7. 9 2 0 36 J amp 48 1 89 T 8 1 0 32 Output Points J O OJOJO O O O O d j o 1 2 3 4 s 6 7 Terminator I O PIT f s Ry L L Fuses located e undertop cover HH 4X Ev NH g 6 27 VDC 6 27 VDC 012345 6 240 VAC 6 240 VAC 6000 M Commons 99999999 S E U U U UUU OC r SSRVVCKCggg sr e ejeje elele e A nae eae COCK VK QQggsg VO V1 I UI UI UI VCI XJ7 LI VI V 0 V 1 not used with Relay 8 1 32 Ter Output Modules mm in Equivalent Output Circuit 83 3 3 28 MEM Internal Module Circuitry o Output V L s t T To LED ue i m i aT GC Side View 6 27 VDC 1 Bed AG Taada gurdsxapscndiacacaiesed Derating Chart Typical Relay Life Operations at Room Temperature 8 Load Current 1 5A Voltage amp Type of Load 24 VDC Resistive 24 VDC Solenoid 110 VAC Resistive 110 VAC Resistive Ir Se ee 220 VAC Resistive 50 68 86 104 122 131 F inba Ambient Temperature C F 220 VAC Resistive 2 0A Terminator Installation and I O Manual 3rd Edition 3 67 Chapter 3 I O Wiring and Specifications T1K 16TR Relay Output Specifications Outputs Per Module 16 Output Type Relay Form A SPST normally open Commons Per Module 4 4 pts common isolated
8. 9 2 0 36 89 3 5 fh i 8 1 0 32 Terminator I O Input points T1F 16AD 2 ay s 9 O O O O O O O O O O O O O O O L x 0 1 2 344 5 6 7 8 9 10 11 1213 1415 c OO O O O O O70 d 0 0 D U SG 3 o if a sj 4 s e zl e o 10 1 14 18 14 15 e 4l m Commons not isolated 0123 45 6 7 8 9 1011 12 13 14 15 s 1w jejejerejperejelejelelerejelerele eee cB ee eee eee ee pce a COMO COM1 COM 2 COM3 i E oro u u u u o uoo o Tua 666696969999999999 Z r eS nS ee ee ee eS eS eS pe eo eo eo oS ew e st SKVYCHO VK GKGKNV GV VGPVVPSP8Gg Lr p XII OU WV i5 ISESISASRSASASRSISASASASASASASAS d elelelelele e dox eg zzi Y V2 V3 8 1 0 32 Y LO J LO J Note V 0 and Note V 2 and V 3 internally V 1 Internall i Module Supply eue y connected to Commons mm in 24 VDC 83 3 3 28 gt NOTES 1 Shields should be grounded at the signal source S 2 Unused inputs should be connected to Common 0 VDC 3 More than one external power supply can be used provided all the power supply commons are connected Input Signal Ranges eux 0 5V 0 10V 5 to 5V 10 to 10V 5v 10 S 12 m m Side View ov ov ov ov j 5V J 10V J 0 4095 0 8191 4095 4095 8192 8191 Equivalent Input Circuit Transmitter Supply Module Supply 18 30
9. 9 2 0 36 amp 48 1 89 gt Output Points 8 1 0 32 O OJ O O O O O O 0 1 2 3 4 5 6 7 PETA L LIE Fuses located ai under top cover TYH e 5 Gg e e ele ele e e LLLA gt 12 24 VDC COM 0 COM 1 01234567 e eee ele ay lg o00ooooooQ Commons ooo9oeoeoPcoece s ru EI E e x L TleJeleje eje eje 696559595994 vo vi a V 0 V 1 internally connected 8 1 0 32 Y O mm in T1K 08TD1 a 83 3 3 28 gt s Derating Chart I lt gt Points 8 as ae ae ela 9 6 LLL 1 0 75A 4 1 0A 2 9 I 3 T 0 10 20 30 40 50 55 C 32 50 68 86 104 122 131 F Ambient Temperature C F Side View Equivalent Output Circuit DAWDC SiO RS Ore E a E i ae Doe 2 Il svi Output Sink Module 4 L Le External Power 12 24 VDC To LED Terminator Installation and I O Manual 3rd Edition 3 51 Chapter 3 I O Wiring and Specifications T1K 08TD2 1 DC Output Specifications Outputs Per Module 8 sourcing Commons Per Module 2 internally connected EH Operating Voltage Range 12 24 VDC Output Voltage Range 10 8 26 4 VDC min max Peak Voltage 50 VDC Max Load Current 1A pt 4A common Max Leakage Current 15 uA 26 4 VDC ON Voltage Drop 1 2 VDC Q 1 0A Max Inrush Current 2A for 100 ms OFF to ON Response 10 us ON to OFF Response 0 5 ms Bas
10. Equivalent Output Circuit AMANDO 27777777777 intemal Module Circuitry 777 I vo v3 i Output g l Sink Module 1 LT e Optical Isolator External Power i i 12 24VDC_ My TeLED 0o GN a T NNI t i 63A an B MIT 3 COM Other Circuits i Terminator Installation and I O Manual 3rd Edition 3 57 Chapter 3 I O Wiring and Specifications T1K 16TD2 1 DC Output Specifications Outputs Per Module 16 source Commons Per Module 4 internally connected Operating Voltage Range 12 24 VDC Output Voltage Range 10 8 26 4 VDC min max Peak Voltage 50 VDC Max Load Current 1A pt 4A common subject to derating Max Leakage Current 15 uA 26 4 VDC ON Voltage Drop 1 2 VDC 1 0 A Max Inrush Current 2A for 100 ms OFF to ON Response 10 us ON to OFF Response 0 5 ms Base Power Requirements 200 mA Q 5 VDC Status Indicators Logic Side Error Status Indicators LEDS id i i o te a n Fuses User Replaceable 4 6 3 A 250 V common 4 pts fuse T1K FUSE 1 NQ3 6 3 SOC corp Weight 140g Environmental Specifications Ambient Operating Temperature 32 F to 140 F 0 C to 60 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensing Atmosphere 0L 84
11. Input points 92 ili gt 89 3 5 e ejejle ejeje e e e e e e e o o 8 1 0 32 0 1 2 3 4 5 6 ds senes f j i Terminator I O o fo ls te Io ol ol ol ol le Io l E mr QO Zs x On q 2 9 0 Il 3 A 5 6 BA 8 9 10 14 12 18 14 15 2 E 0 12 3 4 5 6 7 8 9 10 11 12 13 14 15 Tee NDC 00ooooooooooO o0 o OojO O ojO O O O O O vo V1 v2 SGV GS GSS VS GSVV ggg S uU X Wi Wi ee ie aa ao a WT XI a OVD if intemal Power 9 699 99 9999999 r Jumper is selected oe er XI XI XI X XXI X XI VE i Note ISESISASRSISASESISASISASASASRSAS S Spy T Jk EE S E E O a LIILTILE II lI External Power E 5 E 1j 7 8 1 0 32 Sink Module 32 Oj LO J Configuration mm in Shown t Side View Jumper Selection External Power Sink Module Equivalent Input Circuit MODULE External Power gl P E sougc OO OOO OO OO OO mr 4 V0 V3_ Internal Module Circuitry afe i HH HATTTHTAA3 T i SINK EXT e k dE eu i i l i A bad To LED Source Module Sink dE ANM ras MODULE External Power i COM Optical Isolator 7 7 SOURCE OOOOOOO0O0O0 l mr Source EE a 12 24 VDC SINK oo EXT MODULE Internal Power MODULE HH BRERA SINKJJOO lOOOOO OO OO Exr SINK OOOO000000 EX VO v3 Source Module Input Internal Module Sink Module Internal Module Internal Power 3l ses j Circuitry Internal Power NEL e Circuitry NPRLL HE E Field COM 24 VDC Intemal Field COM 24 VDC Intemal Device Pee ORM Sian Goss Device TNCS Sse eS Te
12. FU FU3 I F located undetop cover H O OO FU2 FUA LLL LLL T 012 3 4 5 6 7 8 9 10 11 12 13 14 15 l Se 54 3 2 14 gt 6 27 VDC Qo o 2q dod Qo q dod 2 q Qd loq 2q 2q 2q Hod iq d lt lt K 80 3 15 6 240 VAC GO GC GGG GOK HSH GN NNO S Ln oe a UU U 2 ee ee ee e S GSFC V GPP GG PVVVG NPP 6 27 VDC EE ig 6 240 VAC e le ele e ejele e e e ele e e e me T E E reme a vo V1 v2 V3 8 1 0 32 O O V 0 V 3 not used with Relay Output Modules mm in Equivalent Output Circuit lt 833 8 28 gt Ae E o Internal Module Circuitry Output V Ls ToLED a AC or DC a l Suppl i i i upy COM Side View 6 27VDC i 6 240VAC gt nt Date Code 012 and later Typical Relay Life Operations Derating Chart at Room Temperature ais ib Voltage amp Load Current N isa Type of Load 1A OA PI 1p CM 24 VDC Resistive 500 K 250K 7 2s 24 VDC Solenoid 100 K 50K KE 110 VAC Resistive 500 K 250 K 0 i N A 110 VAC Resistiv
13. Power Supply 2 HD i e EET e q f A 157 Note 1 The T1K DEVNETS consumes 45 mA 11 25 VDC from the DeviceNet System Note 2 Use T1K 01AC 24 VDC auxiliary supply or external user supply Important Power Budget Note For each power supply in a system make sure the current required by the interface and I O modules does not exceed the current supplied at both 5 VDC and 24 VDC LOT LOT Terminator Installation and I O Manual 3rd Edition 3 29 Chapter 3 I O Wiring and Specifications T1H EBC Ethernet Base Controller Obsolete Specifications Module Type Ethernet Slave Communications 10Base T Auto configuring 1 0 type position automatically identified during power up Ethernet Protocols UDP IP IDX Ethernet Port RJ 45 Node Address 1 to 99 decimal set by rotary switches or software 0 used for setting address via software only Link Distance 100 meters 328 feet Data Transfer Rate 10 Mbps LED Indicators NOTE All indicators re initialize during power up For more information consult the T1H EBC M User Manual MODULE GOOD green On module passed diagnostics check during last power up Fast B
14. Terminator Installation and I O Manual 3rd Edition 3 35 Chapter 3 I O Wiring and Specifications T1K MODBUS Base Controller Specifications Communication Protocol MODBUS RTU Slave MODBUS Connector 15 pin female D shell MODBUS Port Type RS 232C RS 422 485 Station Address 1 to F7h 247 Rotary switch setting Number of 1 0 Points Discrete Inputs 1024 Outputs 1024 Analog Inputs 64 Channels Outputs 64 Channels Communication Baud Rate 300 600 1200 4800 9600 19200 38400 Baud Dip Switch 1 3 Set Communication Data 8 bit fixed 1 Start bit 1 Or 2 Stop bit Parity None Odd Even configure using Setup Tool Defaults 8 fixed 1 1 Odd Communication Time out 500 ms 1 sec 2 5 sec 5 sec 10 sec 25 sec 60 sec Default 1 sec configure using Setup Tool RTS On Off Delay Time 0 2 5 10 50 100 500 ms efault 0 ms cofigure using Setup Tool Status Indicators RWR green ON when power good RX green ON when data is being received TX green ON when data is being transmitted RUN green ON when communicating with Master ERR red Communication error DIAG red 1 0 system error Output Enable Switch Enable outputs are enabled Disable outputs are disabled Installation Requirement Must mount to the right of the first power supply in a slave system Base Power Requirements 250 mA 5 VDC
15. Input Wiring amp Dimensions ee ee m Input Channels N 0191910919189191 IN1 1N2 IN3 iN4 INS ING IN7 IN8 COM Output Channels H 1012 4 Wire Voltage OUT2 OUT3 OUTA 012 7 Transmitter o o o Commons not isolated kee eee gt atte SSS SSNS E ru E peee ojojo SSSSHHSH vo ct SP A A I I V1 Module Supply Op 8 1 0 32 24 VDC NOTES mm in 1 V1 terminals are internally connected to Commons 2 Shields should be grounded at the signal source c 83 3 3 28 gt 3 Unused inputs should be connected to Common 0 VDC g 4 More than one external power supply can be used provided all the power supply commons are connected Input Signal Ranges 0 5V 0 10V 5 to 5V 10 to 10V lel 5V 10V 5V 10V 7 pr TET ov o Side View ov 0v 5V J 10V 0 4095 0 8191 4095 4095 8192 8191 Equivalent Input Circuit Transmitter Supply Module Supply 18 30 VDC 24 VDC See Note 1 T x z D o 3 Wire e Voltage L Ato D Transmitter ot F Converter P Terminator Installation and I O Manual 3rd Edition 3 101 Chapter 3 I O Wiring and Specifications i T1F 8AD4DA 2 Output Channel Specifications Number of Channels 4 Output Ranges 0 5V 0 10V 5V 10V Output Type single ended 1 c
16. Environmental Specifications Ambient Operating Temperature 32 F to 131 F 0 C to 55 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensing Atmosphere UL gases The level of environmental pollution 2 Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Method 514 2 Voltage Withstand 1500 VAC 1 minute Insulation Resistance 500 VDC 10 MQ NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Agency Approvals UL CE FCC class A Noise Immunity Points Derating Chart 0 T T T T T 0 10 20 30 40 50 55 C 32 50 68 86 104 122 131 F Ambient Temperature C F 3 U2 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions
17. TAF 16RTD LJ O Channel Inputs 9O1010 O O O O O O O O O OJO O O CH1 CH2 CH3 CH4 CH5 CH6 CH7 CH8 CH9 CH10 CH11 CH12 CH13 CH14 CH18CH16 e F o PERERA D s OOI OIO HuiuiH diBidu OIO OID 0 1 2 3 4 8 6 7 8 9 1011 12 13 14 15 80 3 15 25 70 0154 543 244 Channel Inputs S GL S GVY VY SY VS GES ojeje oje e o e e e e o e e o ELS S 89998 NGG Chit CH2 CH3 CH4 CHS cHe CH7 CH8 CH9 CH1Q CH11 CHI CH13 CH14CH15 CH16 PS O99999 KN 999999 d d 0O00 0 000 ga gd BIB me eee 8 1 0 32 O O RTD Returns mm in e e eJe e elele e e e e e e e e RTD Commons g a njo n a p n u n n o n u n 0 lt 83 3 3 28 gt Oo Note 1 B m Side View Notes 1 The three wires connecting the RTD to the module must be the same type and length Do not use the Equivalent Input Circuit shield or drain wire for the third connection 2 If an RTD sensor has four wires the plus sense Internal Module Circuitry wireshould be left unconnected as shown 200 uA Current Source
18. Offset Calibration Error of full scale hs o all errors and temp drift included 5 V ranges B ae r4 ec Master Update Rate 8 channels per scan max 256 discrete pts or 8 dwords Output Points Required d double word 32 bit word Network Interface dependent Base Power Required 75 mA Q 5 VDC External Module Power Supply Req 21 6 26 4 VDC 150 mA class 2 Operating Temperature 0 to 60 C 32 to 140 F Storage Temperature 20 to 70 C 4 to 158 F Relative Humidity 5 to 95 non condensing Environmental Air No corrosive gases permitted Vibration MIL STD 810C 514 2 Shock MIL STD 810C 516 2 Noise Immunity NEMA ICS3 304 Weight 1459 NOTE This module requires software setup via the Module Control Byte Refer to Chapter 4 in this manual 3 82 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions 9 2 0 36 gt lt _ 48 1 89 gt Output Points M A 8 1 0 32 O O O O O OJOlO i 7 o 1 2 3 4 s 6 7 Terminator O i O 0 0 0 0 0 0 3 N e a O
19. CTS Clear to Send 9 2 0 36 gt lt 48 1 89 gt 8 1 0 32 a Terminator O m m TIK DEVNETS QO m sms m mJ NS NS ENABLE P ovrevrs mm DISABLE S o prasice H ETI BE 1 LL IE Address R12 Exp Serial Port Rotary Node S 10 3 0 41 Switches i or mm in Factory Default Settings Shown all OFF shall E swi SW2 DeviceNet Baud Rate SW3 Reserved sw4 Sws SW6 T1K DEVNETS DIP Switch Settings Note Default setting assigns the node s first Input and Output word to I O Diagnostics 7 VO Polling Diagnostics Enable Disable Hold Outputs on Comm Error Maintenance Port Baud Rate SW7 Reserved SW8 RTS CTS SW 1 2 DeviceNet Baud Rate enable disable SW 5 Hold Outputs Baud Rate SW1 SW Outputs SW5 125k bps OFF OFF Turn Off OFF 250k bps ON OFF 500k bps OFF ON Reserved ON SW 4 Disable 1 0 Polling Diagnostics ON 1 0 Diagnostics SWA Enable OFF Disable See Dip SW 4 Note above ON Hold ON SW 6 Maintenance Port Baud Rate Baud Rate SW6 9600 bps OFF 19200 bps ON SW 8 RTS CTS Enable Disable RTS CTS SW8 Disable OFF Enable ON
20. Communication Port RJ 12 Serial Port RJ 12 RS 232C Use to configure MODBUS port usning MODBUS Setup Tool Utility or use to upgrade firmware Baud rate 9600 19 2000 Baud set with Dip Switch 6 Fixed settings 8 data bits 1 start bit parity Odd General Specifications Installation Requirements Must mount to the right of the first power supply in a slave system Operating Temperature 32 F to 131 F 0 C to 55 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 30 to 95 relative humiditiy Non condensing Voltage Withstand 1500 VAC 1 minute 15 pin connector internal Insulation Resistance 500 VDC 10 MQ Vibration Resistance MIL STD 810C Method 514 2 Shock MIL STD 810C Method 514 2 Noise Immunity NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFII 145 MHz 435 MHz Atmosphere No corrosive gases _ Environmental Pollution Level 2 Weight 6 0 oz 170 g 3 36 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Dimensions 9 2 0 36 gt lt 48 1 89 gt
21. I O WIRING AND SPECIFICATIONS In This Chapter 1 0 Wiring Strategies sisi aue srt eh eee Reet A E eae ws 3 2 1 O Modules Position Wiring and Specifications leere 3 14 1 O Module Hot Swap Feature lleeeeeeeee nnn 3 21 Calculating the Power Budget 0 ccc ccc eee ee eee eh 3 22 I O Specification Terms mm eR ee eee ee tasa eae E PE 3 26 Module Specifications Begin Here 0 0c ccc eee eee e 3 28 Chapter 3 I O Wiring and Specifications 1 0 Wiring Strategies Terminator I O System Isolation Boundaries The Terminator I O system is very flexible and will work in many different wiring configurations By studying this section before actual installation you can probably find the best wiring strategy for your application This will help to lower system cost wiring errors and avoid safety problems Terminator I O system circuitry is divided into three main regions separated by isolation boundaries shown in the drawing below Electrical isolation provides safety so that a fault in one area does not damage another A transformer in the power supply provides magnetic isolation between the primary and secondary sides Opto couplers provide optical isolation in Input and Output circuits This isolates logic circuitry from the field side where factory machinery connects Note the discrete inputs are isolated from the discrete outputs because each is isolated from the logic side Isolation bounda
22. Ko gi a UNIT T1K RSSS y ORS RJ 12 ge d Serial Port D PULLTO UNLOCK n Rotary N LATI I 80 3 15 L 83 3 3 28 Address 10 3 0 41 O Switches NVL seing T1K RSSS DIP Switch Settings SW 1 Mode SW 2 3 4 Baud Rates SW 5 Output SW 6 Serial Port OFF SM NET Baud Rate SW 1 SW2 SW3 Default Parity ON RM NET 19200 OFF OFF OFF Outputs SW5 Odd OFF 38400 ON OFF OFF Clear OFF None ON 153600 OFF ON OFF Hold ON SM NET only 307200 ON ON OFF SW 7 8 Serial Port Baud Rate 614400 OFF OFF ON dris o Ak P Baud Rate SW7 SW8 SM NETony j ps are tor 4800 ON OFF 9600 OFF OFF 19200 OFF ON 38400 ON ON Port Active in SM NET only Use 9600 odd parity for Operator Interface T1K RSSS Serial Port Pin out RJ 12 plug RJ 12 socket riccalilo on T1K RSSS Serial Port Pin Descriptions in Signal Definition OV Power connection GND 5V Power connection RXD Receive Data RS 232C a j TXD Transmit Data RS 232C 5V Request to send a OV Clear to Send Terminator Installation and I O Manual 3rd Edition 3 39 Chapter 3 I O Wiring and Specifications T1H PBC Profibus Base Controller Specifi
23. Red Wiring the I O Module Bases There are two types of terminal bases for the Terminator I O modules screw clamp and spring clamp connectors The recessed screw heads help minimize the risk of someone accidentally touching active wiring 1 WARNING For some modules field device power may still be present on the terminal block even though the Terminator 1 0 system power is turned off To minimize the risk of electrical shock check all field device power before you remove a wire Terminal Type Screw Type Spring Clamp Recommended Torque 2 3t Nn push in on clamp using Recommended Screwdriver 0 02 in x 0 125 in screwdriver blade size Blade Size 0 5 mm x 3 mm 0 016 x 0 079 to 0 032 x 0 16 in 0 4 x 2 to 0 8 x 4 mm solid conductor 24 14 AWG solid conductor 24 12 AWG stranded conductor 24 14 AWG stranded conductor 24 12 AWG Twist conductors or inserting into gate Terminator Installation and I O Manual 3rd Edition 3 17 Chapter 3 I O Wiring and Specifications Selecting Internal 24 VDC Power Supply The DC input field devices can be powered from the integrated 24 VDC power supply from the power supply bus The T1K O8ND3 and T1K 16ND3 DC input modules have jumpers for selecting internal 24 VDC power supply available for 2 and 3 wire field devices The analog I O and DC output modules do not have direct access to the internal bussed 24 VDC ESI Jumpers located under top co
24. Some applications will use the external power source to also power the input circuit This typically occurs on DC powered systems as shown in the drawing below to the left The inputs share the system power source supply while the outputs have their own separate supply A worse case scenario from a cost and complexity view point is an application which requires separate power sources for the Terminator I O system input devices and output loads The example wiring diagram below on the right shows how this can work but also the auxiliary supply output is an unused resource You will want to avoid this situation if possible DC Power EIE CA AC Power Y Y Terminator I O System Power Input Terminator I O System Power Input Input Module Output Module Auxiliary Input Module Output Module 24 VDC Inputs Com Outputs Com Supply Inputs Com Outputs Com T I 7 Y 4 cl Y Y c Loads Load R2 Input Loads Load Supply Supply Supply 3 4 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Sinking Sourcing Concepts Before going further in the study of wiring strategies you must have a solid understanding of sinking and sourcing concepts Use of these terms occurs frequently in input or outp
25. User Bus Terminals no internal connection to CTRIO Gnd OIO O O O O O O O OJO O O O O O USER BUS 1 USER BUS 2 User Bus 1 1 M 24 VDC User Bus 2 0 VDC S iw ag tops Input Wiring Example Input Output Channels elejeje e e e e e e e e e e e e 1A MB 1C 1D YO YO Y1 Y1 2A 2B 2C 2D Y2 Y2 Y3 Y3 NPN Device PNP Device Output Output NPN Device PNP Device L Output Output L Channel Commons m o O 0 OJOOOjJO O OJOQQQO O O O 1M 1M 1M 1M CO CO C1 C12M 2M2M 2M C2 C2 C3 C3 User Bus Terminals
26. 2 Unused inputs should be connected to Common 0 VDC lt gt 3 When using 0 156 mV and 5 V ranges connect or 0 V SOSA terminals to OV to ensure common mode range acceptance 4 The Cold Junction Compensation part T1F CJC 9 temperature sense unit that comes with the module must be installed into the I O base terminals to perform CJC of the thermocouple inputs Voltage Input Signal Ranges 0 5V 0 156 25mV 5 to 5V 156 25 mV a 5v 10V o5V 10V zi IPIE aus Side View ov OV 5V 10V l 0 65535 0 65535 32767 32767 32767 32767 Equivalent Input Circuit Module Supply Voltage Specifications vee did oe et ete Internal Module Circuitry Vo V1 24 VDC 0 5V 0 156 25 mV See Notes 2 and 3 oe Input Voltage Ranges put votage Ranges y 5y a 156 25 mV v2 o voc Resolution 16 bit 1 in 65535 Ton mite Full Scale Calibration 3 oe ae 13 counts typical oy 8 Error Offset Error 1 33 t Voltage 5 AtoD Included il Coumo eee Transmitter T Converter Offset Calibration 1 count max 0 V EN Sele Error input Linearity Error 1 count maximum End to End Maximum Inaccuracy 0 02 Q 25 C 77 F Terminator Installation and I O Manual 3rd Edition 3 93 Chapter 3 I O Wiring and Specifications T1F 14THM continued Setting Module Jumpers Select the Conversion Units Select Input Type see Note 3 Thermocouple Conversion Units See Note 4
27. 512 discrete pts or 16 dwords d double word 32 bit word etwork Interface dependent Base Power Required 75 mA 5 VDC External Module Power Supply Req 21 6 26 4 VDC 150 mA class 2 Operating Temperature 0 to 60 C 32 to 140 F Storage Temperature 20 to 70 C 4 to 158 F Relative Humidity 5 to 95 non condensing Environmental Air No corrosive gases permitted Vibration MIL STD 810C 514 2 Shock MIL STD 810C 516 2 Noise Immunity NEMA ICS3 304 Weight 1729 NOTE This module requires software setup via the Module Control Byte Refer to Chapter 4 in this manual 3 86 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions 9 2 0 36 89 3 5 N 8 1 0 32 i gt Terminator VO Output Points RI 0 9 0O O O O O O O O O O O O O O O hd 0 1 2 314 5 6 7 8 9 10 111213 1415 a gjgjag njgjnja njn 0 0 0 0 0 es BS 0 1 2j 3 4 5 6 7 8 o 10 1 1 ipl 14 15 2 Load Common
28. CJ HFE gt 100 TTL Devi E Channel Commons LN e eje e o e e e e e e e e e e o 1MHM 1M 1M CO Co C1 C1 2M 2M 2M 2M C2 C2 C3 C3 Es O 0 Oy 0 0 03 TTL Device EEO C m T VS CTRIO Input Resources zz 9 30 Counter Timer 4 2 per 4 input channel group VDC 1X 2X or 4X Quadrature Up or Down eee Counter Edge Timer Dual Edge Timer F pons Pulse Catch Reset Inhibit Capture TESESUBS i Dare 100 Timer Range 42 bilion 32 bits 1 us 10 E Counter Range 2 1 billion 32 bits or 31 bits sign bit zs c TTL Device aie frre x TTL Quadrature Encoder Wiring Example Dou E Input Output Channels e o l olojololojol ololojolololo o o 1A B 4C 1D YO YO Y1 Y1 2A 2B 2C 2D Y2 Y2 Y3 Y3 o HFE gt 100 UD BD 10K Channel Commons B d A O O OIOOQ O OJOIOJOIOoOQ0O Oo ooO oh 1MHM 1M 41M CO CO C1 C1 2M 2M 2M 2M C2 C2 C3 C3 Z ofo J n aju u c 10K s nr 100 0 1W 10 E C 5VDC T 10K B 100 L 9 30 0 1W VDC 10 E qa 3 106 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications T1H CTRIO Input Quadrature Encoder Wiring Example Wiring Diagrams Input Output Channels e ejele ele ele ele e e e e e o 1A 1B 1C 1D Yo YO Y1 Y1 2A 2B 2C 2D Y2 Y2 Y3 Y3 A NPN Open Collector Output Channel Commons Ea B ele eje je eje ejele ele e e e e 1M Z 1M 1M 1M CO CO C1 C1 2M 2M 2M 2M C2 C2 C3 C3 C Power
29. Chapter 3 I O Wiring and Specifications B c dH HE Select Temperature Units Temperature Jumper Units F x C X Jumper Installed Blank Space Jumper Removed used in bits D31 D16 bit 24 as shown below Bit 24 designated as BO is the channel burn out bit 1 channel RTD sensor burn out or RTD is disconnected from either input terminal 0 channel is okay The remaining bits are not used and are all equal to 0 D15 DO shown below contains the temperature data with D15 being the most significant bit MSB The temperature data has one implied decimal so the readings are in tenths of degrees Negative temperature readings are represented in 2 s complement format 15 14 13 12 11 10 9 8 7 6 5 4 1 0 D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 DO Terminator Installation and I O Manual 3rd Edition 3 91 Chapter 3 I O Wiring and Specifications T1F 14THM 14 Channel Thermocouple Input Specifications Use with 1 0 Module Base T1K 16B screw type terminal base only Number of Channels 14 differential Common Mode Range 5 VDC Common Mode Rejection 90 db min DC 150 db min 50 60 Hz Input Impedance 1MQ Absolute Max Ratings Fault Protected Input 50 VDC Master Update Rate 14 channels per scan maximum 512 discrete pts or 16 d
30. T C Type 0 ERI T C Type 1 an Input Type we Su T C Type 2 EI T C Type 3 Units 0 Bk Units 1 Conversion Units Calibrate Enable 4 See Note 1 NOTES Note 1 The Calibrate Enable jumper comes from the factory not installed Installing the jumper disables the thermocouple active burn out detection circuitry which enables a thermocouple calibrator to be connected to the module To make sure that the output of the thermocouple calibrator is within the 5 V common mode voltage range of the module connect the negative side of the differential voltage input channel to the 0 V terminal then connect the thermocouple calibrator to the differential inputs for example Ch 34 and Ch 3 Note 2 The module comes with all of the Number of Channels jumpers installed for fourteen channel operation Use the table to determine the proper settings Note 3 The module comes with all of the Input Type jumpers installed for J type thermocouple operation Use the table to determine the proper settings Note 4 The module comes with the Conversion Units jumpers set for magnitude plus sign with Fahrenheit units selected All thermocouple types are converted into a direct temperature reading with one implied decimal place Negative temperatures can be represented in either 2
31. TIK 08TD2 T JO x L EE Fuses located Fu e under top cover TH DEREBEE 7 12 24 VDC 01234567 ggg 9 O o O o OO O 3 E EI Commons ooooeoeocee 5 Pra G6008608P 989 E AMAA WITUtrTCtE 0v 0v a UII Pa 0 V 1 internally connected 8 1 0 32 Tor Note Apply the 0 V label that comes with the I O module to I O base terminal points V 0 V 1 to mm in properly identify the 0 VDC terminal points EN 83 3 3 28 i Derating Chart Points 8 M9 M 075A 6 MMM 10A 0 T T T T 0 10 20 30 40 50 55 C 32 50 68 86 104 122131 F Side View Ambient Temperature C F Equivalent Output Circuit Internal Module Circuitry OV V0 V1 i Source Module Output f Optical Isolator External Power T Li Sey ToLED i MENT 1 63A I ce Ho 12 24 VDC COM Other Circuits i Terminator Installation and I O Manual 3rd Edition 3 53 Chapter 3 I O Wiring and Specifications T1H O8TDS Isolated DC Output Specifications Outputs Per Module 8 isolated sink sourcing Commons Per Module 8 isolated Operating Voltage Range 5 36 VDC Max Voltage 36 VDC Output Clamp Voltage 40 VDC Max Load Current 2A pt 16 A module 32 F to 140 F 0 C to 60 C Electronic Over Current Pro
32. Maximum Leakage Current 100 pA Inrush Current 5 0 A for 20 ms OFF to ON Response lt 3 0 us ON to OFF Response lt 3 0 us ON State Voltage Drop lt 03V External Power Supply For loop power only is not required for internal module function Overcurrent Protection 15 A maximum Base Power Required 400 mA 5 VDC Thermal Shutdown Tjunction 150 C Overtemperature Reset Tjunction 130 C Duty Cycle Range 1 to 99 in 1 increments Configurable Presets a single b multiple a Each output can be assigned one preset or b Each output can be assigned one table of presets one table can contain max 128 presets max predefined tables 255 General Specifications Module Type Intelligent Modules Per Base Limited only by power consumption 1 0 Points Used None 1 0 map directly in PLC V memory or PC control access Field Wiring Connector Standard removable terminal block Internal Power Consumption 400 mA Max at 5V from Base Power Supply Maximum of 6 Watts All 1 0 in ON State at Max Voltage Current Operating Environment 32 F to 140 F 0 C to 60 C Humidity non condensing 5 to 95 Isolation 2500 V 1 0 to Logic 1000 V among Input Channels and All Outputs 3 10H Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimension
33. Ref Adj E CH D ONE RN a AtoD i o Converter x T 8 CH 200 uA Note 2 f Current Is a ee en E E E EE dee Source Terminator Installation and I O Manual 3rd Edition 3 89 Chapter 3 I O Wiring and Specifications T1F 16RTD continued Setting Module Jumpers Select Input Type see Note 1 Select Number of Channels see Note 2 Number of Channels RTD Input PH00 Q Pt1000 Q jPt100 Q Type CU 10 Q Type CU 25 Q 120 O Nickel X Jumper Installed Blank Space Jumper Removed gt lt gt lt gt lt gt lt gt lt gt lt gt lt gt lt X Jumper Installed Blank Space Jumper Removed NOTE 1 The module comes from the factory with all of the Number of Channels jumbers installed for sixteen channel operation Use the table to determine the proper settings NOTE 2 The module comes from the factory with the input Type jumpers selected for Pt100 Q operation Use the table to determine the proper settings 3 90 Terminator Installation and I O Manual 3rd Edition Number of Channels Input Type Temperature Units T1F RTD Data Format The data format for each of the 16 RTD input channels consists of 32 bits Only one bit is Jumpers Located Under Module Top Cover CH 1 CH 2 CH 3 CH 4 RTD 0 RTD 1 RTD 2 F or C
34. s complement or magnitude plus sign format If the temperaure is negative the most significant bit is the sign bit 2 s complement data format may be required to correctly display bipolar data on some operator interfaces Note 5 The bipolar voltage input ranges may be converted to a 15 bit magnitude plus sign or a 16 bit 2 s complement value Terminator Installation and I O Manual 3rd Edition 3 95 Chapter 3 I O Wiring and Specifications T1F 8AD4DA 1 8 Channel Current Analog Input 4 Channel Current Analog Output Input Channel Specifications Number of Channels 8 single ended 1 common Input Points Required 256 discrete pts or 8 dwords d double word 32 bit word etwork Interface dependent Input Ranges 0 20 mA 4 20 mA 20 to 20 mA Resolution 14 bit 13 bit plus sign bit Frequency Response Input active low pass filter 3 db 100 Hz 20 db decade Input Resistance 250 Q Absolute Maximum Ratings 8V max Input Conversion Time 5 ms per channel Linearity Error 2 count max Input Stability 1 count Full Scale Error Offset Error not included 16 counts max Offset Error 2 counts max Max Full Scale Inaccuracy of full scale all errors included 0 18 25 C 0 36 60 C Recommended Fuse 0 032 A Series 217 Fast Acting Input Range Resolution 20 to 20 mA 8192 to 8191
35. 0 20mA 4 20mA ce CO View 20m OmA 0 4095 20mA 4mA 0 4095 Equivalent Output Circuit Loop Supply 18 30 VDC See Note 1 Load 250 ohms Module Supply 24 VDC a V2 V3 Outp ut gt Internal Module Circuitry Current sinking typical DtoA Converter ae Terminator Installation and I O Manual 3rd Edition 3 85 Chapter 3 I O Wiring and Specifications T1F 16DA 2 16 Channel Voltage Analog Output Specifications Number of Channels 16 Output Ranges 0 5V 0 10V 5V 10V Output Type single ended 1 common Resolution 12 bit 1 in 4096 Peak Output Voltage 15 VDC Load Impedance 4 KO min Load Capacitance 0 01 uF max Linearity Error end to end 2 counts max 0 05 of full scale max Conversion Settling Time 100 us max full scale change Full Scale Calibration Error 12 counts max Offset Calibration Error 10 V ranges 6 counts max 5 V ranges 11 counts max Accuracy vs Temperature 50 ppm C full scale calibration change Max Full Scale Inaccuracy of full scale all errors and temp drift included 10 V ranges 0 2 Q 25 C 0 4 60 C 5 V ranges 0 3 25 C 0 5 60 C Master Update Rate 16 channels per scan max Output Points Required
36. 8 1 0A je 47 ge 0 T T T T T 0 10 20 30 40 50 55 C Side View 32 50 68 86 104 122 131 F Ambient Temperature C F Equivalent Output Circuit Internal Module Circuitry j OV f V 0 V 3 f Source Module Output Optical Isolator External Power T Lr f i levy ToLED 63A MERE o o gt IT 12 24 VDC COM Other Circuits i Terminator Installation and I O Manual 3rd Edition 3 59 Chapter 3 I O Wiring and Specifications T1K 08TA AC Output Specifications Outputs Per Module Commons Per Module Operating Voltage Range Output Voltage Range Max Load Current ON Voltage Drop Max Leakage Current Max Inrush Current Min Load OFF to ON Response ON to OFF Response Base Power Requirements Status Indicators Error Status Indicators LEDS 8 2 4 pts common isolated 17 240 VAC 47 63 Hz 15 264 VAC 47 63 Hz min max 1A pt 4A common subject to derating 1 5 VAC Q 50 mA 4 0 VAC Q 50 mA 4 mA Q 264 VAC 10 A for 10 ms 10 mA 1ms 1 ms 1 2 cycle 250 mA Q 5 VDC Logic Side FU1 ON fuse 1 blown FU2 ON fuse 2 blown 2 10 A 250 V common 4 pts fuse 5 x 20 mm type 140g Fuses User Replaceable T1K FUSE 2 Weight Environmental Specifications Ambient Ope
37. Channel 2 Status Blinking OFF Program Mode 1A 1D Channel 1 A D Status OFF Blinking Module Self diagnostic Failure 2A 2D Channel 2 A D Status OFF ON Module Error due to Watchdog Timeout YO Y3 Output Status OFF OFF No Power to Module More LED Diagnostics Definitions Blinks when Channel 1 Function 1 is counting or timing Blinks when Channel 2 Function 1 is counting or timing Follows actual output state ON output is passing current Terminator Installation and I O Manual 3rd Edition 3 105 Chapter 3 I O Wiring and Specifications T1H CTRIO Input Wiring Diagrams TTL Input Wiring Example Input Output Channels jo NPN General Purpose Transistor 1A Y1 2A 2B 2C 2D
38. Y Y Terminator I O System Power Input Input Module Output Module Inputs Com Outputs Com ry ry Y Y SOR Loads e Terminator Installation and I O Manual 3rd Edition 3 3 Chapter 3 I O Wiring and Specifications Powering I O Circuits Using Separate Supplies In most applications it will be necessary to power the input devices from one power source and to power output loads from another source Loads often require high energy AC power while input sensors use low energy DC If a machine operator is likely to come in close contact with input wiring then safety reasons also require isolation from high energy output circuits It is most convenient if the loads can use the same power source as the Terminator I O system and the input sensors can use the auxiliary supply as shown to the left in the figure below If the loads cannot be powered from the system supply then a separate supply must be used as shown to the right in the figure below O AC Power CA AC Power Power input Terminator I O System Rewer input Terminator I O System Auxiliary Input Module Output Module Auxiliary Input Module Output Module 24 VDC 24 VDC Supply Inputs Com Outputs Com Supply Inputs Com Outputs Com 7 i ty 7 NN Y Y moy o7 Y Y OO Loads pee Loads Load Supply
39. as ar ar or VW Vu ie Loop Supply lolo Qo SESBESBSBSEBSBSBS N 18 30 VDC VO V1 aS A E D y a SL HE Module Supply NOTE All VO and V 1 terminals g 4 o A O _ 24 VDC are internally connected Ra mm in Output Signal Range P g 9 NOTES lt 83 3 3 28 4 20mA 1 Shields should be connected to the 0 V terminal 20mA of the module or the 0 V of the power supply 2 2 Unused current outputs should remain open no connections for minimum power consumption IF 4mA 0 4095 Equivalent Output Circuit pi Module Supply Sourcing Current Loop Supply 24 VDC Configuration 18 30 VDC Side View 2 de PA T tae e T See Note 1 e vo Internal Module Circuitry e V1 Load e DtoA Output Converter e PRSES Module Supply Sinking Current 24 VDC Configuration A m See Note 1 M B vo Internal Module Circuitry MA Load L DtoA pera Output Converter AA R E Terminator Installation and I O Manual 3rd Edition 3 99 Chapter 3 I O Wiring and Specifications T1F 8AD4DA 2 8 Channel Voltage Analog Input 4 Channel Voltage Analog Output Input Channel Specifications Number of Channels 8 single ended 1 common Input Ranges 0 5V 0 10V 5V 10V Resolution 14 bit 13 bit plus sign bit Frequency Response 3 db 500 Hz 20 db decade Input Resistance 200 KO min Absolute Maxim
40. edm e eje ej o e e e e e e e e e e o Lose from 1M iM imlim co co c4 C12M 2M 2M 2M C2 C2 C3 C3 Yo 0O00 0O OoOO Ojojoo oojo Y bd Load L 5 36 VDC User Bus Terminals no internal connection to CTRIO Cn where n 0 1 2 3 O O O O OJO O O O O O O O O O O G USER BUS 1 USER BUS 2 Q Yn Output WOO g didjDjgrgiD didi alid T 5 36 VDC 4 User Bus 1 CO 24 VDC User Bus 2 Y1 0 VDC 3 108 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications T1H CTRIO Output Wiring Diagrams The stepper wiring example assumes the Step Amplifier interface to be opto coupler LEDs common anodes at the OPTO Power terminal with internal current limiting resistors This is a standard method but you must consult your stepper amplifier documentation to ensure that this method is applicable E Stepper Servo Drive Wiring Example Input Output Channels O O O OJOIOO O JOIOIOO OJOJOO 1A 48 lic 4D vO Yo Y1 1 2A 2B 2c 2D v2l v2 v3 Y3 OOOOH OoOO O D D D1D D 5 36 VDC StepAmpiifier 5 36 VDC Step Amplifier z S Opto Power m Channel Commons Opto Power Pulse or CW pu Q OO0JOJOIOOQo o0 joooo o ooo Pulse o6 CW 1M4M 1M 1M CO CO C1 C1 2M 2M 2M 2M C2 C2 C3 c3 Direction or CCW Direction or CCW
41. no internal connection to CTRIO O O O O O O O O O O O O O O O l USER BUS 1 USER BUS 2 9 30 L VDC User Bus 1 1M 24 VDC User Bus 2 2 M 0 VDC Terminator Installation and I O Manual 3rd Edition 3 107 Chapter 3 I O Wiring and Specifications T1H CTRIO Output Wiring Diagrams The module has 4 optically isolated output points pts YO Y3 with isolated commons CO C3 respectively The outputs must be wired so positive current flows into Cn terminal and then out of the Yn terminal Output Wiring Example Output Wiring Schematic Input Output Channels OQ O O Oo O OIOJO O O O O O O O O O Cn Pe 1A 1B 1C 4D YO Yo Y1 Y1 2A 2B 2c 2D v2 Y2 Y3 Y3 n U 1 Z t CTHIO OOOO o OoiOJO Ojo BID Bd 5 36 VDC F Q Yn Output CTRIO Sink from Load Load L Channel Commons into C1
42. swe MODBUS port Default Mode RJ 12 plu mem Baud Rate FECE PORE on ONE 9 Communication Data swa 7 L ol Start Bit SW4 Comm Setting 0 Stop Bit SW5 Hold Outputs M op B swe e Parity Bit sw7 Address Mode rp Communication Time Out SW8 RTS CTS RTS ON Delay Time Enable Disable 12 3 45 6 RTS OFF Delay Time Maintenance Port Baud Rate Terminator Installation and I O Manual 3rd Edition 3 37 Chapter 3 I O Wiring and Specifications T1K RSSS Remote I O Base Controller Specification Module Type non intelligent slave Protocol SM NET RM NET Station Address 1 to 31 set by rotary switches 1 to 7 set by rotary switches Number of Masters per PLC CPU Max Slave 1 0 Points per Check PLC CPU remote Master module remote 1 0 specifications PLC CPU Baud Rate Distance Baud Rate Distance Baud Rate Communication bm op Distance set by DIP switches 153600 600 m 307200 300 m 614400 100 m RUN On when communication is active DIAG On when a slave hardware failure error occurs 1 0 Fast Blink 1 0 error 250 ms on off time LED Indicators Slow Blink 1 0 configuration error while outputs are enabled 500 ms on off time Continuous ON 1 0 and configuration error LINK On when a communication error occurs Enable outputs are enabled Disable outputs are disabled RJ 12 RS 232C K Sequence HP RM T aud rate ps
43. 0 24 V 350 30 V 40 C 250 24 V 600 30 V 60 C Linearity Error end to end 2 counts max 0 0596 of full scale max Conversion Settling Time 400 us max full scale change Full Scale Calibration Error 12 counts max Offset Calibration Error 0 20 mA 5 counts max 4 20 mA 6 counts max Accuracy vs Temperature 50 ppm C full scale calibration change Max Full Scale Inaccuracy of full scale all errors included 0 2 25 C 0 4 60 C Master Update Rate 16 channels per scan max Output Points Required 512 discrete pts or 16 dwords d double word 32 bit word Network Interface dependent Base Power Required 75 mA 5 VDC External Module Power Supply Req 21 6 26 4 VDC 150 mA class 2 Operating Temperature 0 to 60 C 32 to 140 F Storage Temperature 20 to 70 C 4 to 158 F Relative Humidity 5 to 95 non condensing Environmental Air No corrosive gases permitted Vibration MIL STD 810C 514 2 Shock MIL STD 810C 516 2 Noise Immunity NEMA ICS3 304 Weight 1729 Max allowable output power dissipation For example at 60 C and 24 VDC there must be a load of at least 250 Q on the output circuit Smaller loads will damage the analog output circuit NOTE This module requires software setup via the Module Control Byte
44. 16DA 2 15 150 see note 2 15 70 see note 2 Specialty Modul es and other devices 400 Note 1 The TIK DEVNETS consumes 45mA 11 25 VDC from the DeviceNet System Note 2 Use T1K 01AC 24 VDC auxiliary supply or external user supply Note 3 60 mA plus 20 mA per output loop Note 4 If any device is connected to the Controller s serial port that uses the 5 VDC supply pin 0 be sure to include the device s power consumption in your 5 VDC power budget calculation NOTE Important Power Budget For each power supply in a system make sure the current required by the interface and I O modules does not exceed the current supplied at both 5 VDC and 24 VDC Terminator Installation and I O Manual 3rd Edition 3 23 Chapter 3 I O Wiring and Specifications Power Budget Calculation Example The following example shows how to calculate the power budget for the first slave unit of an I O system SLAVE Node 1 Power Supply 1 Part Number ge m ue ESI Power Supplied T1K 01AC see pg 3 18 2000 300 T1H EBC100 350 T1K 16NA 1 70 T1K 16TA 450 Other Ol etc 0 Maximum power required 870 Remaning power available 2000 870 1130 300 0 300 5 VDC mA 24 VDC mA Required Required Power Supplied T1K 01AC see pg 3 18 1500 T1K 08AD 2 75 T1K 08AD 2 75 T1K 16TD1 200 T1K 08TR 350 T1K 08ND3 35 0 Maximum power required 735 500 Remaining power available 1500 735 765
45. 24V coil transients of roughly 84V if sinking output or 60V if sourcing output could reach the PLC output Many semiconductor PLC outputs cannot tolerate such levels Terminator Installation and I O Manual 3rd Edition 3 13 Chapter 3 I O Wiring and Specifications 1 O Modules Position Wiring and Specifications Multiple Power Supply Configuration It is possible to have multiple power supplies in a single slave node system to meet power budget requirements One power supply is required in the leftmost component position followed by the base controller Additional power supplies should be added between I O modules as necessary to meet power budget requirements there are some restrictions on where power supplies can be placed in the system when using the T1K 05CBL RR 1 expansion base cable Each power supply powers the modules to its right but is interrupted by the next power supply Each slave node system can be divided into one row of base I O plus two rows of local expansion I O up to a total of 16 I O modules Expansion cables are available in two configurations one that passes 24 VDC base power through and one that does not both cables pass the 5 VDC base power The 1 version of the expansion cables pass 24 VDC through on an isolated wire Any local expansion DC input modules configured for internal power current sourcing must either have a power supply preceeding it on the same base or have a 1 version cabl
46. 30 VDC ON Voltage Drop 0 3 VDC Q 1 0A Max Inrush Current 2A for 100 ms OFF to ON Response 10 us ON to OFF Response 60 us Base Power Requirements 100 mA 5 VDC External Power Required 200 mA max 20 28 VDC Status Indicators Logic Side Error Status Indicators LEDS a S A dea bird 2 blown Fuses User Replaceable 2 6 3 A 250 V common 4 pts fuse T1K FUSE 1 NQ3 6 3 SOC corp Weight 85g Environmental Specifications Ambient Operating Temperature 32 F to 131 F 0 C to 55 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensing No corrosive gases The level of environmental pollution 2 UL 840 Atmosphere Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Method 514 2 Voltage Withstand 1500 VAC 1 minute Insulation Resistance 500 VDC 10 MO NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Agency Approvals UL CE FCC class A Noise Immunity 3 50 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions
47. Apply the labels that come with the 1 0 module to the 1 0 base terminals to properly identify the base terminal points Also the CJC sense unit must be installed to the 1 0 base see wiring diagram below 9 2 0 36 89 3 5 n 8 1 0 32 r S Terminator I O Input points A esseri L 9 0 0J O O O O O O O O O O O O O x 1 2 3 4 5 6 7 8 a pig O00 0 0 0 0 0 qi 0 0 0 2 gt Differential D thermocouple Grounded e wiring thermocouple of sp 2 si 4 s s zh e e tol 1d 12 1al 14 15 e LF wiring LF 0123 4 5 6 7 8 9 1011 12 13 14 15 o 0j0 0o O O O OjO O O O O O O O E 4 See Notes 1 and2 9 10 411 CJC 12 413 414 E A plg ero go U Dus m ES SSSes 9999999S9 z LILLI i LLLI Z 999999999999999 E Module Supply CJG L uUuwwWWwWWwWwWwuwWWwWWWWTMW iu 24 VDC See Noted CSY GCGVV GS VGGGGGg 3L 4elelelelelele e opele t phus iurare E ov 8 1 0 32 V1 0 J LOJ NOTES i 1 Shields should be grounded at the signal source mm in
48. E ERY I AAAG SSHSSSHSSS vo V1 as ae cw Module Supply 24 VDC Note V 1 internally connected 8 1 0 32 V OQ to Commons mm in NOTES 1 Shields should be connected to the 0 V terminal of the module or the 0 V of k 83 3 3 28 the power supply 2 Unused current outputs should remain open no connections for minimum 9 power consumption Output Signal Ranges 0 20mA 4 20mA 20m T 20mA m m OmA Side View 0 4095 0 4095 Equivalent Output Circuit Loop Supply Module Supply 18 30 VDC 24 VDC See Note 1 eO Internal Module Circuitry V1 Load T 250 ohms Output Current sinking typical e DtoA i pam Converter COM Terminator Installation and I O Manual 3rd Edition 3 81 Chapter 3 I O Wiring and Specifications T1F 08DA 2 8 Channel Analog Output Specifications Number of Channels 8 Output Ranges 0 5V 0 10V 4 5V 10V EH Output Type single ended 1 common Resolution 12 bit 1 in 4096 Peak Output Voltage 15 VDC Load Impedance 4 KO min Load Capacitance 0 01 uF max 2 counts max 0 0596 of full scale max Conversion Settling Time 100 us max full scale change Full Scale Calibration Error 12 counts max 10 V ranges 6 counts max 5 V ranges 11 counts max Accuracy vs Temperature 50 ppm C full scale calibration change Max Full Scale Inaccuracy 10 V ranges d is ri ae Linearity Error end to end
49. Input points f 8 1 0 32 9O O O O O O O O e o1 2 3 4 5 6 7 Terminator yO f O O 0 0 0 0 0 j F uwan L S e oan Lo io Commons not isolated l l 3 4 Wire AZ o 1 7 amp dorus 01234567 00000000 609609660909 S 1 M 999999998 Transmitter Supply _ elelelelolelele ro ooo ua A 18 30 VDC SKCVLVVSKgs m vo V1 eae an ane enw nw ee Module Supply mor 8 1 033 TO 24 VDC Note V1 internally connected O to Commons mm in NOTES 1 Shields should be grounded at the signal source 2 Unused inputs should be connected to Common 0 VDC 83 3 5 28 3 More than one external power supply can be used 5 provided all the power supply commons are connected j Input Signal Ranges 0 5V 0 10V 5 to 5V 10 to 10V lj LOY 5V 10V 5V 10V m v w Side View ov ov 5V J 10V 0 4095 0 8191 4095 4095 8192 8191 Transmitter Supply Module Supply Equivalent Input Circuit 18 30 VDC 24 VDC Ep Ium es equ e E See NOTE 1 Tullius Le a Internal Module Circuitry Input 2 3 Wire j e amp Voltage 2 Ato D Transmitter Ei Converter Terminator Installation and I O Manual 3rd Edition 3 75 Chapter 3 I O Wiring and Specifications T1F 16AD 1 16 Channel Current Analog Input Specifications Number of Channels 16 single ended 1 common Input Ranges 0 20 mA 4 20 mA 20 to 20 mA Resolution 14 bit 13 bit plus sign bit Frequency Respon
50. Operating Voltage Range 6 240 VAC 47 63 Hz 6 27 VDC Output Voltage Range POE Pd min max Max Load Current 2A pt 6 A common Max Leakage Current 0 1 mA 264 VAC Max Inrush Current 6A for 10 ms pt 20 A for 10 ms common Min Load 5 mA Q 5 VDC OFF to ON Response 15 ms ON to OFF Response lt 10 ms Base Power Requirements 700 mA Q 5 VDC Status Indicators Logic Side LESE Z Boum Fuses User Replaceable 4 10 A 250 V common 4 pts fuse T1K FUSE 2 5 x 20 mm type Weight 200 g Environmental Specifications Ambient Operating Temperature 32 F to 140 F 0 C to 60 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensing No corrosive gases The level of environmental pollution 2 UL 840 Atmosphere Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Method 514 2 Voltage Withstand 1500 VAC 1 minute Insulation Resistance 500 VDC 10 MO NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Agency Approvals UL CE FCC class A Noise Immunity 3 68 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions 9 2 0 36 gt 89 3 5 71 T 8 1 0 32 T Terminator I O Output Points a TIK 16TR
51. Refer to Chapter 4 in this manual 3 84 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions 9 2 0 36 89 3 5 HI 8 1 0 32 Terminator fO e e ejeje e e e e e e e e e e o p T1E 16DA 1 Q 0 1 2 314 5 6 7 8 91011112131415 a gjajajgjaja aja d of dH H H D oo 0 1 2 3 4 5 8 1j 8 s 10 dot 13 14 15 e Load Commons not isolated 0 12 3 4 5 6 7 8 9 10 11 12 13 14 15 250 ohini olejelejlellelelelljele e q eee ACORCHCNOAUA COMO COM 1 COM 2 COM3 E A D O o ooo onanan ope ssssssssssssses 5 T So69o9o99 oo9oooooqes rr Ella SSISESESISASASISASASASASASASAS il Loop Supply L eee qeeeeqqe oo Em Im 18 30 VDC VO V1 V2 V3 n 8 1 0 32 V39j LO J Module Supply Note VO and Note V2and V 3 24 VDC V 1 internally internally connected a mm in connected to Commons NOTES lt 83 3 3 28 gt 1 Shields should be connected to the 0 V terminal of the module or the 0 V of the power supply o 2 Unused current outputs should remain open no connections for minimum power consumption ji Output Signal Ranges g
52. VDC 24 VDC See one NM EOE Lev Internal Module Circuitry n s M Input a 3 Wire J e ES Voltage y 2 AtoD Transmitter i F Converter e COM Terminator Installation and I O Manual 3rd Edition 3 79 Chapter 3 I O Wiring and Specifications T1F 08DA 1 8 Channel Current Analog Output Specifications Number of Channels 8 Output Ranges 0 20 mA 4 20 mA Output Type single ended 1 common Resolution 12 bit 1 in 4096 Max Loop Supply 30 VDC Peak Output Voltage 30 VDC Load Impedance 0Q min Max Load ohm Power Supply 620 18 V 910 24 V 1200 30 V Min Load ohm Power Supply 0 24 V 350 30 V 40 C 250 24 V 600 30 V 60 C Linearity Error end to end 2 counts max 0 0596 of full scale max Conversion Settling Time 400 us max full scale change Full Scale Calibration Error 12 counts max Offset Calibration Error 0 20 mA 5 counts max 4 20 mA 6 counts max Accuracy vs Temperature 50 ppm C full scale calibration change Max Full Scale Inaccuracy of full scale all errors included 0 2 25 C 0 4 60 C Master Update Rate 8 channels per scan max Output Points Required 256 discrete pts or 8 dwords d double word 32 bit word etwork Interface dependent Base Power Required 75 mA 5 VDC External
53. _ 8 1 0 32 X P M Terminator Q MODBUS a port _ SERRE PWRO n bc RXO ORUN n i SR ETAR sd DIP Switch located under hir S hinged cover on side of unit 5 T L EE SY x10 S TIK MODBUS RJ12 H El zs ae serial port e is UNLOCK Rotary _ SEZ ress Switches o mm in T1K MODBUS DIP Switch Settings SW 1 3 MODBUS Port Baud Rates SW 6 Maintenance Baud Rate SW1 SW2 SW3 Port Baud Rate 30 OFF Or Orr BaudRate swe 600 ON OFF OFF 9600 OFF 1200 OFF ON OFF 19200 ON MODBUS Port Pin out Signal Definition 5V 5VDC TXD Transmit Data RS 232C RXD Receive Data RS 232C RTS Request to Send RS 232C CTS Clear to Send RS 232C RXD Receive Data RS 422 OV Logic Ground OV Logic Ground Transmit Data RS 422 Transmit Data RS 422 Request to Send RS 422 Request to Send RS 422 Receive Data RS 422 Clear to Send RS 422 Clear to Send RS 422 2400 ON ON OFF SW 7 MODBUS RTU 4800 OFF OFF ON Addressing Mode 9600 ON OFF ON Mode SW 19200 OFF ON ON 584 984 OFF 38400 ON ON ON DirectLogic ON SW 4 Communication Setting Mode SW 8 RTS CTS Default Mode OFF Enable Disable Option Mode see T1K MODBUS Manual ON RTS CTS SW8 Disable OFF SW 5 Hold Output Enable ON 1 2 3 4 5 6 T 8 Turn Off DIP SW Q swi
54. convenient to do so WARNING Only authorized personnel fully familiar with all aspects of the application should replace an 1 0 module with system power ON The Base Controllers in the table to Base Controller Supports Hot Swap the right support the Hot Swap TIK DEVENETS feature T1K MODBUS T1K RSSS T1H EBC 100 Yes refer to T1H EBC M or T1H PBC M T1H PBC User Manual for Hot Swap information The table to the right shows which Module Can be Hot Swapped modules can or cannot be Hot Power Supply No Swapped Base Controller No 1 0 Modules discrete analog Yes Hot Swap I O Module Replacement The following steps explain how to Hot Swap an I O module 1 Remove I O module from base 2 Install new I O module of the same part number 3 Verify that the Base Controller LEDs have returned to normal Outputs Enable Disable Switch A feature that may be used in a non continuous process application is the Outputs Enable Disble switch The switch is located on the front of the T1K DEVNETS MODBUS RSSS base controllers When the switch is in the Disable position all outputs are disabled OFF although discrete and analog input data continues to be read This option may be used at a convenient time during the process application to replace an I O module Check External 24 VDC Wiring Before Hot Swapping Before Hot Swapping an analog I O module or a DC output module in a Terminator I O system make
55. ende D Power Supply 2 Part Number Note 1 An external user power supply must be used in if the 24 VDC current requirement exceeds the TIK 01AC 24 VDC auxiliary supply 1 When using the tables at the beginning of the Power Budgeting section of this chapter fill in the information for the base controller I O modules and any other devices that will use system power including devices that use the 24 VDC output Devices which fall into the Other category are devices such as an operator interface which also has power requirements but do attach as a module to the system 2 Add the current columns starting with the slave and put the total in the row labeled Maximum power required 3 Subtract the row labeled Maximum power required from the Power Supplied Place the difference in the row labeled Remaining Power Available 4 If Maximum Power Required is greater than Power Supplied in either of the two columns the power budget will be exceeded It will be unsafe to use this configuration and you will need to restructure your I O configuration 3 24 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Power Budget Worksheet This blank chart is provided for you to copy and use to calculate the power budget SLAVES Power Supply 5 VDC mA Module Part Number required Auxiliary Power Source 24 VD
56. i Commons not isolated z Load E 4K oh inim COM 0 COM 1 7 1 A O 0 0 0 0 0 0 699969609609 5 Era sr SSVSVSGSSSNSr E a aaa aaa e pese o O O VSSgggggs VO V1 ft e V Module Suppl 24 cae Note V 1 internally connected 8 1 0 32 i O to Commons DUE mm in NOTES 1 Shields should be connected to the 0 V terminal of the module ot the 0 V terminal of the power supply 83 3 3 28 35 2 Unused voltage outputs should remain open no connections for minimum power consumption o Unipolar Ranges Bipolar Ranges ov 5V ov 10V 5V to 5V 10V to 10V 5V 10V 5V ov gu ov ov ay ov Iwi Lv ZL Side View 0 4095 0 4095 O 2047 4095 O 2047 4095 Equivalent Output Circuit Module Supply 24 VDC Internal Module Circuitry d 1 e 0 See Note 1 Output Voltage Sink Source Load e 4K ohm 1 m i DtoA minimum 1 Converter Terminator Installation and I O Manual 3rd Edition 3 83 Chapter 3 I O Wiring and Specifications T1F 16DA 1 16 Channel Current Analog Output Specifications Number of Channels 16 Output Ranges 0 20 mA 4 20 mA Output Type single ended 1 common Resolution 12 bit 1 in 4096 Max Loop Supply 30 VDC Peak Output Voltage 30 VDC Max Load ohm Power Supply 620 18 V 910 24 V 1200 30 V Min Load ohm Power Supply
57. in the leftmost position Chapter 3 I O Wiring and Specifications Module Power Requirements This chart shows the amount of maximum current required for each of the Terminator I O modules Use this information to calculate the power budget for your system If an external 24 VDC power source is required you can use the built in 24 VDC auxiliary supply as long as you do not exceed the power budget If any device is connected to the Controller s serial port that uses the 5 VDC supply pin be sure to include the device s power consumption in your 5 VDC power budget calculation Base Controller and 1 0 Module Power Consumption Module 5 VDC mA 24 VDC mA Module 5 VDC mA 24 VDC mA Base Contollers AC Output Modu 250 T1K 08TA 250 190 see note 1 T1K 16TA 450 350 T1K 08TAS 300 250 elay Output Modules 530 T1K 08TR 350 T1K 16TR 700 T1K 08TRS 400 nalog Input Modules T1F O8AD 1 75 see note 2 T1F 16AD 1 75 see note 2 T1F 08AD 2 75 T1F 16AD 2 75 50 50 50 see note 2 50 see note 2 200 see note 2 T1F 16RTD 150 0 0 T1F 14THM 60 70 see note 2 0 nalog Output Modules 400 see note 2 T1F 08DA 1 75 150 see note 2 0 T1F 16DA 1 75 150 see note 2 T1F 08DA 2 75 150 see note 2 15 60 see note 2 and 3 TIF
58. is labeled COM 0 and COM 1 respectively In this wiring label example the positive terminal of a DC supply connects to the common terminals Some symbols you will see on the SI m A br wiring labels and their meanings are AC supply DC supply AC or DC supply l i l 1 4 l l D Input Switch Output Load 0 0 L 3 6 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Connecting DC I O to Solid State Field Devices In the previous section on Sourcing and Sinking concepts the DC I O circuits were explained to only allow current to flow one way This is also true for many of the field devices which have solid state transistor interfaces In other words field devices can also be sourcing or sinking When connecting two devices in a series DC circuit one must be wired as sourcing and the other as sinking Solid State Input Sensors Terminator I O DC input modules are flexible because they detect current flow in either direction so they can be wired as either sourcing or sinking In the following circuit a field device has an open collector NPN transistor output It sinks current from the input point which sources current The power supply can be the 24 auxiliary supply or another supply 12 VDC or 24 VDC as long as the input specifications are met Field Devi
59. oe select 9600 baud for operator interface default active only other baud rates are for updating T1K RSSS arity odd default even Fixed settings 8 data bits 1 start bit 1 stop bit Base Power Requirement 250 mA 5 VDC Communication Cabling For remote 1 0 RS 485 twisted pair Belden 9841 or equivalent Output Enable Switch General Specifications Installation Requirements Must mount to the right of the first power supply in a slave Operating Temperature 32 F to 131 F 0 C to 55 C Storage Temperature 4 F to 158 F 20 C to 70 C Relative Humidity 5 to 95 Non condensing No corrosive gases The level of environmental pollution 2 UL 840 Environmental Air Vibration MIL STD 810C Method 514 2 Shock MIL STD 810C Method 514 2 NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Noise Immunity 3 3 8 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Dimensions 9 2 0 36 e TO 2 1 89 gt ZZZNVIVA ay W Terminator I O Remote I O connector od TIK RSSS 5 T e 4 jos DIAG ENABLE ON AA 1273435575 O UNK OUTPUTS 2 nett QI 3 DIP Switch located under Og hinged cover on side of unit
60. ov 77 5V 10V l O 2047 4095 O 2047 4095 NOTE The output channels require software setup via the Module Control Byte Refer to Chapter 4 5V to 5V 10V to 10V ee Note 1 lt 5V 10V Load Output 4K ohm i minimum To f Output Range Resolution Voltage Sink Source DtoA Converter Terminator Installation and I O Manual 3rd Edition 3 103 Chapter 3 I O Wiring and Specifications pIE T1H CTRIO Counter I O Module Input Specifications Input 8 pts 2 isolated channels 4 pts each channel sink source 100 KHz maximum See Input Resources Table for available Input Function options Minimum Pulse Width 5 us Input Voltage Range 9 30 VDC Maximum Voltage 30 VDC Input Voltage Protection Zener clamped at 33 VDC Rated Input Current 8 mA typical 12 mA maximum Minimum ON Voltage 9 0 VDC Maximum OFF Voltage 2 0 VDC Minimum ON Current 5 0 mA Q 9 0 VDC Maximum OFF Current 2 0 mA OFF to ON Response lt 3 0 us ON to OFF Response lt 3 0 us Output Specifications Outputs 4 pts independently isolated sink source FET Outputs See Output Resources Table for available Output Function options Voltage Range 5 36 VDC Maximum Voltage 36 VDC Output Clamp Voltage 60 VDC Maximum Load Current 1 0A
61. terminal is the main path for the m current One additional terminal must provide the EESTI return path to the power supply Oo a HM MI If there was unlimited space and budget for I O terminals every I O point could have two dedicated terminals as the figure above shows gu I However providing this level of flexibility is not uud practical or even necessary for most applications aes o 3 So most Input or Output points are in groups none which share the return path called commons 0 0 Y The figure to the right shows a group or bank of gg Inputs a i 4 input points which share a common return path In this way the four inputs require only five l so us Y terminals instead of eight EN E Y Common SOL je m E NOTE In the circuit above the current in the common path is 4 times any channel s input current when all inputs are energized This is especially important in output circuits where heavier gauge wire is sometimes necessary on commons Most Terminator I O input and output modules group their I O points into banks that share a common return path The best indication of I O common grouping is on the wiring label such as the one shown to the right The miniature schematic shows two banks of circuits with four output points in each The common terminal for each
62. the circuit has been completed Current flows in the direction of the arrow when the switch is closed By applying the circuit principle above to the four possible combinations of input output sinking sourcing types as shown below The I O module specifications at the end of this chapter list the input or output type Sinking Input Sinking Output Terminator I O System Terminator I O System mpun mo q ae oa D 1 Output OO Load dE Input Output iL Lure Y Sensing Switch Y y Common L 4 Common E d 2 Sourcing Input Sourcing Output Terminator I O System Terminator I O System Common 7 pc gsm p 1 Common O Q aL Input Output el coe Y Sensing Switch Y Rover Input utpu Dum Load pies mpm E pure mm lien i Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications I O Common Terminal Concepts In order for an I O circuit to operate current must Terminator I O System enter at one terminal and exit at another Field Main Path 5 rs 7 Therefore at least two terminals are associated Device 1 0 Point UU with every I O point In the figure to the right the E Input or Output
63. the field device I input when the input is energized If this value is not known it can be calculated as shown a typical value is 15 mA Then use I input and the voltage of the external supply to compute Ry Then calculate the power Py up in watts in order to size R pull up properly V input turn on input Rinput 2 V supply 0 7 V supply R pull up R input P pull up input R pullup Of course the easiest way to drive a sinking input field device as shown below is to use a DC sourcing output module The Darlington NPN stage will have about 1 5 V ON state saturation but this is not a problem with low current solid state loads Terminator I O DC Sourcing Output uus cC m Gano c aa ae ae q DC pwr Common T G J Field Device CH 1 3 1 Output sourcing Input Rinput A Y j sinking T l Supply i Ground EN See all _ S _ 4 3 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Relay Output Guidelines Several output modules in the Terminator I O family feature relay outputs T1K O8TR TIK 1GTR and T1K 08TRS Relays are best for the following applications e Loads that require higher currents than the solid state outputs can deliver Cost sensitive applications e Some output channels need isolation from other outputs such
64. which may result in a risk of personal injury or equipment damage A Power Supply Specifications The following chart shows the amount of current supplied by the Terminator I O power supply Use this to calculate the power budget for your system The Auxiliary 24 V Power Source mentioned in the table can be used to power field devices or modules that require an external 24 VDC 5 VDC Current Supplied in mA internal Auxiliary 24 VDC Power Source Current Supplied in mA 5 VDC Current Supplied in mA internal Auxiliary 24 VDC Power Source Current 2000 300 2000 Supplied in mA the 5 VDC to 1500 mA Power Supply 1 1500 on an expansion rack The system shown above The first Power Supply PS 1 powers the network interface module and the two I O modules to its right The second Power Supply PS 2 powers the remaining five I O modules This is only an example and the power budget requirements vary depending on the I O modules used Terminator Installation and I O Manual 3rd Edition Power Supply 2 NOTE Important about Power Supplies One power supply is required in the leftmost component position Power Supply 1 as shown above Additional power supplies should be added between I O modules as necessary to meet power budget requirements Each power supply powers the modules to its right but is interrupted by the next power supply It is not mandatory to have a power supply
65. 0 gases The level of environmental pollution 2 Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Method 514 2 Voltage Withstand 1500 VAC 1minute Insulation Resistance 500 VDC 10 MO NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Agency Approvals UL CE FCC class A Noise Immunity 3 58 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions 9 2 0 36 gt 89 3 5 AT A 8 1 0 32 n 3 Terminator I O Output Points O T1K 16 TD2 1 joja FU FUS a e 10 14 RE 45 9 10 11 12 13 14 15 Fuses located under top cover H 09000 lt 54 3 2 14 gt H 25 7 1 01 d lt 3 K 89 3 15 J4ejeretejeleretejelelejejelelele EM E OV OV 0v ov 8 1 0 32 O O Tar V 3 internally connected lt UJ d Note Apply the 0 V label that comes with the O mm in module to I O base terminal points V 0 V 3 to f properly identify the 0 VDC terminal points o Derating Chart Points 16 0 5A 0 75A 1271
66. 4 2 Shock Resistance MIL STD 810C Method 514 2 Voltage Withstand 1500 VAC 1 minute Insulation Resistance 500 VDC 10 MO NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Agency Approvals UL CE FCC class A Noise Immunity 3 56 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions 9 2 0 36 gt 89 3 5 0 38 EE 0 32 e C CA gt Terminator I O Output Points TIK 16 TD1 0 gt Fuses located o0 0 F3 ai under top cover My us m ux 2 8 12 24 VDC HALLE ULL 2 0123 4 5 6 7 8 9 10 11 12 13 14 15 elo 2 000000000000 o COMO COM1 COM2 COM3 al z Ssoesosossosossesssoe F 0 E EESSSEESSSESSSSS B Commons OGOSOOSOOSOOSOSOSOOOOSS rr L T uU Wu uw Ww uuuwuuuwuuu i N e 2Ie ere ere ereperpeleg tsSSS99 9 9 99 9999 9S9 Y 24VDC vo V1 v2 v3 U J IE Ty V 0 V 3 internally connected mm in le 83 3 3 28 T1K 16TD1 S Points Derating Chart 16 04A 0 5A FO 12 4 8 af em 4 1 0A Alla 0 T T T T T 0 10 20 30 40 50 55 C 32 50 68 86 104 122 131 F Side View Ambient Temperature C F
67. 50 cm 1 64 ft Cable Diameter 8 5 mm Shielding None Temperature Range 25 C to 80 C 13 F to 176 F Jacket Material PVC Auxiliary 24 VDC Cable Cable Diameter Two 1 42 mm cables used in a 6 mm sheath Insulation Voltage 2000 VAC 1 minute NOTE Please refer to Chapter 2 for application examples using the different types of expansion cables that are available 30 1 18 le 8 1 0 32 F4 n B mm in Side View Cable Length 50 cm 3 114 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Dimensions T1K 05CBL LL 1 L40 1 58 gt Q 8 1 0 32 i L y 80 8 15 2 8 1 0 32 FLO ge T1K 05CBL LL 1 has 24 VDC cable attached here S n 8 1 0 32 Q 80 3 15 8 1032 O i lt 40 1 58 gt mm in Cable Length 50 cm mm in T1K 05CBL RR 1 9 2 0 36 k 40 1 58 o amp 1032 R 6 1 E o gt wo 8 1 0 32 mm in T1K 05CBL RR 1 has 24 VDC cable attached here 9 2 0 36 y Q 8 1 0 32 Cable Length 50 cm l z 80 8 15 gt 9j k 40 1 58 gt 8 1 0 32 mm in Terminator In
68. 8B T1K 08B 1 9 2 0 36 amp 48 1 89 gt N A 8 1 0 32 0 32 Terminator yo Ea li 83 3 3 28 gt M ps Es lo YY N UU Fh pE a tT 25 7 1 01 lt gt 54 3 2 80 3 15 Side View T1K 16B T1K 16B 1 92 e gt 89 3 5 J 8 1 0 32 J Terminator YO 83 3 3 28 gt rossi o Y ob d II p p o ceo l pe LOY C Aj E K Em a Side View y 8 1 0 32 yv 9J LOJ mm in Terminator Installation and I O Manual 3rd Edition 3 111 Chapter 3 I O Wiring and Specifications T1K 10CBL T1K 10CBL 1 Expansion Cable Specifications Specifications Specification T1K 10CBL T1K 10CBL 1 Cable Length 100 cm 3 28 ft Cable Diameter 8 5 mm Shielding None Temperature Range 25 C to 80 C 13 F to 176 F Jacket Material PVC 2 cables used Auxiliary 24 VDC Cable Dia
69. A RFI 144 MHz 430 MHz 10 W 10 cm Agency Approvals UL CE FCC class A Noise Immunity Points Derating Chart re Litt tt Q T T T 10 20 30 40 50 55 C 50 68 86 104 122 131 F Ambient Temperature C F So 3 42 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions 9 2 0 36 gt 48 1 89 Input points N Aet 0 32 D E e e e e e e e e gt xtorna Owen 0 1 45 67 Ten minator VO Sink Module a Configuration EN Shown x lo x m d re DO ojejo 12 24 voc ul 0 F zm Commons E 83 3 3 28 lt Ps n V 0 and V 1 supply 24 VDC ojo a Il or 0 VDC if Internal Power m Jumper is selected vo Side View mm in Jumper Selection External Power Equivalent Input Circuit MODULE VO a nr roce ess EE Sink M
70. C Output mA required Power Supplied Maximum power required Remaining power available Terminator Installation and I O Manual 3rd Edition 3 25 Chapter 3 I O Wiring and Specifications 1 0 Specification Terms Inputs or Outputs Per Module Indicates number of input or output points per module and designates current sinking current sourcing or either Commons Per Module Number of commons per module and their electrical characteristics Input Voltage Range The operating voltage range of the input circuit Output Voltage Range The operating voltage range of the output circuit Peak Voltage Maximum voltage allowed for the input circuit AC Frequency AC modules are designed to operate within a specific frequency range ON Voltage Level The voltage level at which the input point will turn ON OFF Voltage Level The voltage level at which the input point will turn OFF Input impedance Input impedance can be used to calculate input current for a particular operating voltage Input Current Typical operating current for an active ON input Minimum ON Current The minimum current for the input circuit to operate reliably in the ON state Maximum OFF Current The maximum current for the input circuit to operate reliably in the OFF state Minimum Load The minimum load current for the output circuit to operate properly Externa
71. Chapter 3 I O Wiring and Specifications In this example a T1K 10CBL cable is used to connect the local base I O to an expansion row that has a power supply P S installed in the first position on the row The next expansion row without a P S is connected using a T1K 05CBL RR 1 cable En P S VF 1 0 I O Addressing Sianal ignals Current Left Side P S Signals pum R Right Side urrent P L i gt P S 1 0 1 O E I O Addressing I O I O I O cH I O Addressing gt 4 4 l NOTE Do not put a power supply P S on the last expansion row in this example 3 118 Terminator Installation and I O Manual 3rd Edition i met f VA
72. DS a im e zs 2 blown Fuses User Replaceable 4 10 A 250 V common 4 pts fuse T1K FUSE 2 5 x 20 mm type Weight 190 g Environmental Specifications Ambient Operating Temperature 32 F to 140 F 0 C to 60 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensing No corrosive gases The level of environmental pollution 2 UL 840 Atmosphere Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Method 514 2 Voltage Withstand 1500 VAC 1minute Insulation Resistance 500 VDC 10 MO NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Agency Approvals UL CE FCC class A Noise Immunity 3 62 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions 9 2 0 36 gt 89 3 5 ni li 8 1 0 32 Terminator I O Output Points T1K 16 TA FUI FUS I Fuses located under top cover HL o 00 0 el 9 t d 1 ll 10 11 12 13 14 15 90000 80 3 15 lt 54 3 2 14 gt lee 17 240 VAC FINE L1 Commons 2 o Q o Q 1 01 S 25 7 1
73. G a n n ja a n n n n u n u n H B CTRIO Output Resources Pulse outputs Discrete Pulse outputs 2 Channels 2 outputs per channel outputs Discrete outputs 4 pts Pulse outputs pulse direction or CW CCW Profiles Trapezoid S Curve Symmetrical S Curve Dynamic Positioning DynamicVelocity Home Search Velocity Mode Run to Limit Mode and Run to Position Mode Discrete Outputs 4 configurable for set reset pulse on pulse off toggle and reset count function assigned to to respond to Timer Counter functions RawMode Direct access to output from user program Target Position Range 2 1 billion 32 bits or 31 bits sign bit Resource Options Terminator Installation and I O Manual 3rd Edition 3 109 Chapter 3 I O Wiring and Specifications i T1K 08B 1 1 O Module Base Specifications T1K 08B Specification Terminal Type T1K 08B 1 spring clamp type screw type 1 77 3 54 Ib inch 0 2 0 4 Nm Recommended Torque Push in on clamp using screwdriver blade size 0 016 X 0 79 in to 0 032 X 0 16 in 0 4 mm X 2 mm to 0 8 mm X 4 mm solid conductor 25 14 AWG stranded conductor 26 14 AWG 125g Recommended Screwdriver Blade Size 0 02 in X 0 125 in 0 5 mm X 3 0 mm solid conductor 25 12 AWG stranded conductor 26 12 AWG 135 g Wire Gauge Size Weight Twist con
74. GND 5V Power connection RXD Receive Data RS 232C TXD Transmit Data RS 232C RTS Request to send CTS Clear to Send Terminator Installation and I O Manual 3rd Edition 3 4 Chapter 3 I O Wiring and Specifications T1K 08ND3 DC Input Specifications Inputs Per Module 8 sink source ext power 2 isolated 4 pts com Commons Per Module int power 2 all 8 Oe Inna connected Operating Voltage 12 24 VDC Input Voltage Range 10 8 26 4 VDC min max Peak Voltage 30 VDC Input Current Typical 4 mA Q 12 VDC 8 5 mA Q 24 VDC Input Impedance 2 8 KO ON Voltage Level 10 0 VDC OFF Voltage Level 2 0 VDC Min ON Current 4 mA Max OFF Current 0 5 mA OFF to ON Response 2 8 m Typical 4 ms ON to OFF Response 2 8 ms Typical 4 ms Base Power Requirements 35 mA Q 5 VDC Status Indicators Logic Side Weight 70g Environmental Specifications Ambient Operating Temperature 32 F to 131 F 0 C to 55 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensing No corrosive gases The level of environmental pollution 2 Atmosphere UL 840 Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Method 514 2 Voltage Withstand 1500 VAC 1 minute Insulation Resistance 500 VDC 10 MO NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class
75. Magnitude Plus Sign 2 s Complement o F o C o F o C Themmacoaple mn oltage Inputs Type 1 Type 2 X X X Jumper Units 0 X X Units 1 X X X X Voltage Conversion Units See Note 5 Magnitude 2 s Plus Sign Complement Units 0 X X Units 1 X Jumper J K E R S T B N C 0 5V 5V X Jumper Installed 0 156 mV Blank Space Jumper Removed 156 mV T1F THM Data Format The data format for each of the 14 thermocouple input channels consists of 32 bits shown here split into two groups of 16 bits Only one bit is used in bits D31 D16 bit 24 as shown below Bit 24 designated as BO is the channel burn out bit 1 channel thermocouple sensor burn out or thermocouple is disconnected from either input terminal 0 channel is okay The remaining bits are not used and are all equal to 0 D15 to DO shown below contains the 16 bit temperature data with D15 being the most significant bit MSB See Notes 4 and 5 15 14 13 12 11 10 98 8 7 6 5 4 3 2 11 0 D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 DO 3 94 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Select Number of Channels see Note 2 Modul op Eee Number of Channels CH 1 AH CH 2 Number of Channels CH 3 ie CH 4 FE
76. Module Circuitry OmA V1 0 8191 1638 8191 vf LA Input E 20 to 20mA 3 Wi e NS Current Ze Fuse 2 Ato D 20mA Transmitter i 250 ohms amp Converter i OmA 7 V1 20mA 8191 8191 Terminator Installation and I O Manual 3rd Edition 3 97 Chapter 3 I O Wiring and Specifications T1F 8AD4DA 1 Output Channel Specifications Number of Channels 4 sink source individually configured by wiring Output Points Required 128 discrete pts or 4 dwords d double word 32 bit word Network Interface dependent Output Range 4 20 mA Output Type Single ended 1 common Resolution 12 bit 1 in 4096 Maximum Loop Supply 30 VDC Source Load ohms Loop Power Supply 0 400 2 18 30V Sink Load ohm Loop Power Supply 0 600 Q 18 V 0 900 Q 24 V 0 1200 Q 30V Total Load Sink plus Source 600 Q 18 V 900 Q 24 V 1200 Q 30 V Linearity Error end to end 2 count maximum 0 050 of full scale maximum Conversion Settling Time 400 us maximum full scale change Full Scale Calibration Error Note source error depaends upon the load from source terminal to ground SINK 12 counts max any load SOURCE 26 counts max 400 Q load 18 counts max 250 Q load 12 counts max 125 Q load Offset Calibration Error SINK 6 counts max any load SOURCE 10 counts max 400 Q l
77. Module Power Supply Req 21 6 26 4 VDC 150 mA class 2 Operating Temperature 0 to 60 C 32 to 140 F Storage Temperature 20 to 70 C 4 to 158 F Relative Humidity 5 to 95 non condensing Environmental Air No corrosive gases permitted Vibration MIL STD 810C 514 2 Shock MIL STD 810C 516 2 Noise Immunity NEMA ICS3 304 Weight 145g Max allowable output power dissipation For example at 60 C and 24 VDC there must be a load of at least 250 Q on the output circuit Smaller loads will damage the analog output circuit Chapter 4 in this manual NOTE This module requires software setup via the Module Control Byte Refer to 3 80 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions 9 2 0 36 amp 48 1 89 gt i 1 A 8 1 0 32 EXCIEXEIEXEDES mS M 01 2 s l4 5 6 7 Terminator O 0O OO bip lt o e d c oO io Commons not isolated Load 2 E v COMO COM 1 T jh A 0 0 0000 DID 699699600 5 l w ISESISESHESESESES HID 5 a i
78. Terminator I O 5 eo E N 4 H 3 ojojo 54 3 2 14 gt Fuse Fuse Commons not isolated Mm Wie eJejeje e e e e Z Wre qd S Current Current Transmitter COM 0 COM 1 Transmitter 3 a A 5 D A a 6 oojoo 4 69969609060 E 2 sr S9999999S8Sr Transmitter Supply a aoa VU a 18 30 VDC ojojojojo Sssssssoe Y VO M4 iw am oY a a a a Module Supply l 24 VDC Note V1 internally 8 1 0 32 O connected to Commons mm in NOTER lt 83 3 3 28 gt 1 Shields should be grounded at the signal source 5 2 More than one external power supply can be used provided all the power supply commons are connected 3 A Series 217 0 032 A fast acting fuse is recommended for 4 20 mA fo current loops 4 If the power supply common of an external power supply is not connected to the OV terminal on the module then the output of the external transmitter must be isolated To avoid ground loop errors recommended 4 20 mA alla transmitter types are For 2 or 3 wire connectio
79. Type Charge balancing 24 bit Sampling Rate 140 ms channel Master Update Rate 16 channels per scan Input Points Required 512 discrete pts or 16 dwords d double word 32 bit word etwork Interface dependent Base Power Required 150 mA 5 VDC Operating Temperature 0 to 60 C 32 to 140 F Temperature Drift 25 ppm C max Maximum Inaccuracy 1 C RTD Excitation Current 200 uA Relative Humidity 5 to 95 non condensing Environmental Air No corrosive gases permitted Vibration MIL STD 810C 514 2 Shock MIL STD 810C 516 2 Noise Immunity NEMA ICS3 304 Weight 168 g RTD Input Ranges RTD Type Range Pt100 200 to 850 C 328 to 1562 F Pt1000 200 to 595 C 328 to 1103 F jPt100 Type CU 10 25 200 to 260 C 328 to 500 F 120 Q Nickel C C 38 to 450 C 36 to 842 F C C 80 to 260 C 112 to 500 F 3 88 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions Note Apply the labels that come with the 1 0 module 9 2 0 36 89 3 5 to the 1 0 base terminals to properly identify the base 2 ae terminal points Also the CJC sense unit must be Terminator I O installed to the 1 0 base see wiring diagram below
80. V TVS diodes Since they are uni directional be sure to observe the polarity during installation MOVs or bi directional TVS diodes would install at the same location but have no polarity concerns DC MOV or TVS Diode Circuit 24 VDC XE Sinking Sourcing AC Coils Two options for AC coils are MOVs or bi directional TVS diodes These devices are most effective at protecting the driver from a transient voltage when connected across the driver PLC output but are also commonly connected across the coil The optimum voltage rating for the suppressor is the lowest rated voltage available that will NOT conduct at the supply voltage while allowing a safe margin AutomationDirect s ZL TSD8 120 transorb module is a good choice for 120VAC circuits It is a bank of eight bi directional 180V TVS diodes AC MOV or Bi Directional Diode Circuit NOTE Manufacturers of devices with coils frequently offer MOV or TVS diode suppressors as an add on option which mount conveniently across the coil Before using them carefully check the suppressor s ratings Just because the suppressor is made specifically for that part does not mean it will reduce the transient voltages to an acceptable level For example a MOV or TVS diode rated for use on 24 48 VDC coils would need to have a high enough voltage rating to NOT conduct at 48V That suppressor might typically start conducting at roughly 60VDC If it were mounted across a
81. X green On EBC RJ12 serial port is transmitting SERIAL RX green On EBC RJ12 serial port is receiving Serial Communications Port RJ 12 RS 232C K Sequence protocol ASCII MODBUS RTU not functional when used with H2 ERM 100 H4 ERM 100 or H2 DM1 E Base Power Requirement 350 mA 5 VDC EBC Serial port supports up to 500 mA 5 VDC add for power budget consumption General Specifications Installation Requirements Mounts to the right of the first power supply Operating Temperature 32 F to 131 F 0 C to 55 C Storage Temperature 4 F to 158 F 20 C to 70 C Relative Humidity 5 to 95 Non condensing Environmental Air No corrosive gases The level of environmental pollution 2 UL 840 Vibration MIL STD 810C Method 514 2 Shock MIL STD 810C Method 514 2 Noise Immunity NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm 3 32 Terminator Installation and I O Manual 3rd Edition Dimensions RJ 45 connector 10 100 BASE T ETHERNET PORT i zi SSS amp 83 3 3 28 1 PULLTO UNLOCK Chapter 3 I O Wiring and Specifications 9 2 0 36 RJ 12 Address Switches i gt lt 48 1 89 gt 81 ia 9 Term
82. ad Current 2A pt 8A common Max Leakage Current 0 1 mA Q 264 VAC Max Inrush Current 6A for 10 ms pt 20 A for 10 ms common Min Load 5 mA Q 5 VDC OFF to ON Response 15 ms ON to OFF Response lt 10 ms Base Power Requirements 350 mA Q 5 VDC Status Indicators Logic Side Error Status Indicators LEDS n o z n l pown Fuses User Replaceable 2 10 A 250 V common 4 pts fuse T1K FUSE 2 5 x 20 mm type Weight 110g Environmental Specifications Ambient Operating Temperature 32 F to 140 F 0 C to 60 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensing Atmosphere 0L 840 gases The level of environmental pollution 2 Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Method 514 2 Voltage Withstand 1500 VAC 1 minute Insulation Resistance 500 VDC 10 MO NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Agency Approvals UL CE FCC class A Noise Immunity 3 66 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions
83. and Specifications i T1K DEVNETS Communications Specification Communication Form DeviceNet Communication Protocol Slave Predefined Master Slave Group 2 Server only Network Node Address 0 to 63 Rotary switch setting Data Packet 0 to 8 Bytes Data beyond eight bytes are divided Communication Rate Maximum cable length 125000 Baud 1640 ft 500 m 250000 Baud 820 ft 250 m 500000 Baud 328 ft 100 m Communication Status Indicators MS Module Status LED Green normal device operation Red unrecoverable controller fault NS Network Status LED Green communication link online and connected Green flashing on line but not connected Red critical link or controller failure Red flashing connection time out DeviceNet Power Consumption 45 mA 11 to 25 VDC Base Power Consumption 190 mA 5 VDC DeviceNet Specifications Device Type Generic Configuration Consistency Explicit Peer to Peer Message No Fault Node Recovery 1 0 Peer to Peer Message No Master Scanner Communication Baud Rate 125 K 250 K 500 K 1 0 Slave Message Bit Strobe Polling Cyclic Change of State General Specifications Installation Requirements Must mount to the right of the first power supply in a slave system Operating Temperature 32 F to 131 F 0 C to 55 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient H
84. as when some loads e require different voltages than other loads Some applications in which NOT to use relays e Loads that require currents under 10 mA e Loads which must be switched at high speed or heavy duty cycle Relay output module contacts are availabe in Form A type or SPST single pole single throw Relay with Form A contacts normally open r 1 Some relay output module s share common relay 3 terminals which connect to the wiper contact in pet each relay of the bank Other relay modules have oo Q relays which are completely isolated from each other In all cases the module drives the relay coil zi when the corresponding output point is on Relay Outputs Transient Suppresion for Inductive Loads in a Control System The following pages are intended to give a quick overview of the negative effects of transient voltages on a control system and provide some simple advice on how to effectively minimize them The need for transient suppression is often not apparent to the newcomers in the automation world Many mysterious errors that can afflict an installation can be traced back to a lack of transient suppression What is a Transient Voltage and Why is it Bad Inductive loads devices with a coil generate transient voltages as they transition from being energized to being de energized If not suppressed the transient can be many times greater than the voltage appl
85. ater and only when using this analog module with the T1 H EBC 100 or T1H PBC control module Linearity Error 2 count max Input Stability 1 count Full Scale Error Offset Error not included Offset Error 2 counts max Max Full Scale Inaccuracy 0 18 25 C of full scale k all errors included 0 36 60 C Master Update Rate 8 channels per scan max 256 discrete pts or 8 dwords Input Points Required d double word 32 bit word etwork Interface dependent Base Power Required 75 mA 5 VDC External Module Power Supply Req 18 30 VDC 50 mA class 2 Recommended Fuse 0 032 A 5 VDC Series 217 Fast Acting Operating Temperature 0 to 60 C 32 to 140 F Storage Temperature 20 to 70 C 4 to 158 F Accuracy vs Temperature 50 ppm C max full scale Relative Humidity 5 to 95 non condensing Environmental Air No corrosive gases permitted Vibration MIL STD 810C 514 2 Shock MIL STD 810C 516 2 Noise Immunity NEMA ICS3 304 Weight 136 g 16 counts max Input Range Resolution 20 to 20 mA 8192 to 8191 counts 0 20mA 0 8191 counts 4 20mA 1638 8191 counts 3 72 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions 9 2 0 36 amp 48 1 89 Input points 8 1 0 32 9 0 O OJOJOJOJO d
86. cations Module Type Profibus Network Interface Module Maximum Expansion 32 stations per segment repeaters max segment 126 stations maximum Communications RS 485 Auto configuring GSD file in Master Profibus Profile DP Decentralized Periphery Profibus Port 9 pin D shell Node Address 1 to 126 decimal set by rotary switches or software 0 used by Master Segment Distance 100 meters 328 feet to 1200 meters 3270 feet Baud Rate Selectable from 9 6 kbps to 12 Mbps LED Indicators STATUS Module ON module power up check passed ACTIVE Link ON Network is active OFF Network is not active TOKEN Holding ON OFF Incorrect 1 0 configuration ERROR ON watchdog timer timeout represents hardware communications or network fault power on reset or reset within master device software Communications Port RJ 12 RS 232C K Sequence protocol ASCII not functional when used with H2 ERM Base Power Requirements 350 mA 5 VDC EBC Serial port supports up to 500 mA 5 VDC add for power budget consumption General Specifications Installation Requirements Must mount to the right of the first power supply Operating Temperature 32 F to 131 F 0 C to 55 C Storage Temperature 4 F to 158 F 20 C to 70 C Relative Humidity 5 to 95 Non condensing Environmental Air No corrosive ga
87. ce Terminator 1 0 System DC Input i Output Input L 1 sinking sourcing K Taa S oal GEO L_A Ground 1 il Common 1 alu EA et area eon es E In the next circuit a field device has an open emitter PNP transistor output It sources current to the input point which sinks the current back to ground Since the field device is sourcing current no additional power supply is required Field Device it I Terminator I O System DC Input Inputs MERE 1 Gant ing sinking x utput sourcing Av A Ground Common E eee 4 pe 3 Solid State Ouput Loads Sometimes an application requires connecting an output point to a solid state input on a device This type of connection is usually made to carry a low level control signal not to send DC power to an actuator Several of the Terminator I O DC output modules are the sinking type This means that each DC output provides a path to ground when it is energized In the following circuit the output point sinks current to the output common when energized It is connected to a sourcing input of a field device input Terminator I O System DC Sinking Output Field Device DC pwr Power p nmm Output Input A sinking E sourcing Y Een M 10 30 VDC m A Common E Ground HA AM de meet Terminator Installation and I O Manual 3rd Edition 3 7 C
88. counts 0 20 mA 0 8191 counts 4 20 mA 1638 8191 counts Module General Specifications CPU Update Rate 12 channels per scan maximum Base Power Required 75 mA Q 5 VDC External Module Power Supply 21 6 26 4 VDC 50 mA class 2 plus 20 mA per channel loop Operating Temperature 0 to 60 C 32 to 140 F Storage Temperature 20 to 70 C 4 to 158 F Accuracy vs Temperature 50 ppm C max full scale Relative Humidity 5 to 95 non condensing Environmental Air No corrosive gases permitted Vibration MIL STD 810C 514 2 Shock MIL STD 810C 516 2 Noise Immunity NEMA ICS3 304 Weight 136g 3 96 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Input Wiring amp Dimensions Input Channels 9 2 0 36 e b ie 8 1 0 32 e e e e e e e e pene IN4 IN2 IN3 IN4 INB ING IN7 IN8 g Terminator I O i O O 0 0 0 0 0 0 H O F T1F 8AD4DA 1 a Fuse Fuse i a Ou
89. d 514 2 Voltage Withstand 1500 VAC 1 minute Insulation Resistance 500 VDC 10 MO NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Agency Approvals UL CE FCC class A Noise Immunity 3 70 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions Note Apply the labels that come with the OJ 92 0 36 gt lt 89 3 5 module to the O base to properly identify the 8 1 0 32 terminal points gt 1 i Terminator O Output Points 0 T1K 08TRS gt 9 O O O O OJ O O O O O O O O O O iF sss located FU FUs FUs FUT x ust cal H 0 L 2 7 under top cover 7714 o o NX ulgiararara D i D ouia FUP FU amp Fue FUB ao 0 1 3 4 5 6 7 8 0 1 2 3 4 5 6 7 olololo 0000000000000000 C0 C1 E ojojo S GGG GPS GSS SS VS GPs Note See other side for wiring example od QF oq og Q4 o9 od oF Qq od Qq ed o oq oq e 25 7 1 01 o Mq 2q oq o od o d Qd oq dq o 2q Nog Hog leq ejerejerejejerje e eje e e e e o eee aera VO V1 V2 V3 8 1 0 32 j l Note V 0 V 3 not used on Relay Output Modules
90. ductors before inserting into gate T1K 16B 1 O Module Base Specifications T1K 16B screw type 1 77 3 54 Ib inch 0 2 0 4 Nm Specification Terminal Type T1K 16B 1 spring clamp type Recommended Torque Push in on clamp using screwdriver blade size 0 016 X 0 79 in to 0 032 X 0 16 in 0 4 mm X 2 mm to 0 8 mm X 4 mm solid conductor 25 14 AWG stranded conductor 26 14 AWG 210g Recommended Screwdriver Blade Size 0 02 in X 0 125 in 0 5 mm X 3 0 mm solid conductor 25 12 AWG stranded conductor 26 12 AWG 220 g Wire Gauge Size Weight Twist conductors before inserting into gate Environmental Specifications 32 F to 131 F 0 C to 55 C 4 F to 158 F 20 C to 70 C 5 to 95 Non condensing No corrosive gases The level of environmental pollution 2 Ambient Operating Temperature Storage Temperature Ambient Humidity Atmosphere UL 840 Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Method 516 2 Voltage Withstand 1500 VAC 1 minute Insulation Resistance 500 VDC 10 MO Noise Immunity NEMA ICS3 304 Impulse Noise 1 us 1000V FCC class A RFI 144 MHz 430 MHz 10W 10 cm Agency Approvals UL CE FCC class A 3 110 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Dimensions T1K 0
91. e 200 K 100 K z do m 30 INE 220 VAC Resistive 350K 200 K Ambient Temperature C F 220 VAC Resistive 100 K 50K Terminator Installation and I O Manual 3rd Edition 3 69 Chapter 3 I O Wiring and Specifications T1K O8TRS Relay Output Specifications Outputs Per Module 8 Output Type Relay Form A SPST normally open EH Commons Per Module 8 1 pt common isolated Operating Voltage Range 6 240 VAC 47 63 Hz 6 27 VDC Output Voltage Range 2 cera j ea mg min max Max Load Current 7A pt common subject to derating Max Leakage Current 0 1 mA 264 VAC Max Inrush Current 8A for 10 ms Min Load 5 mA 5 VDC OFF to ON Response lt 15 ms ON to OFF Response 10 ms Base Power Requirements 400 mA Q 5 VDC Status Indicators Logic Side FU1 FU2 ON fuse 1 or 2 blown Error Status Indicators LEDS ae a ON tuse E ord blown FU7 FU8 ON fuse 7 or 8 blown Fuses User Replaceable 8 10 A 250 V common 1 pt fuse T1K FUSE 3 NQ3 10 SOC Corp Weight 185 g Environmental Specifications Ambient Operating Temperature 32 F to 140 F 0 C to 60 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensing No corrosive gases The level of environmental pollution 2 Atmosphere UL 840 Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Metho
92. e Power Requirements 100 mA 5 VDC Status Indicators Logic Side Error Status Indicators LEDS FU1 FU2 ON fuse 1 or fuse 2 blown Fuses User Replaceable 2 6 3 A 250 V common 4 pts fuse T1K FUSE 1 NQ3 6 3 SOC corp Weight 100 g Environmental Specifications Ambient Operating Temperature 32 F to 131 F 0 C to 55 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensing No corrosive gases The level of environmental pollution 2 UL 840 Atmosphere Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Method 514 2 Voltage Withstand 1500 VAC 1 minute Insulation Resistance 500 VDC 10 MO NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Agency Approvals UL CE FCC class A Noise Immunity 3 52 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions 80 3 15 gt 9 2 0 36 48 1 89 gt Output Points 8 1 0 32 O O O O O O O O a F N o1 2 a 4 s e 7 V ermlimetor yQ ES
93. e to pass 24 VDC from a power supply on the preceeding base 3 14 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Overview of I O Expansion Configurations There are several expansion I O system configurations that can be created by using the local expansion cables There are some restrictions on where power supplies can be placed in the system when using the T1K 05CBL RR 1 expansion base cable Refer to Chapter 2 for details of the example systems shown below One expansion cable each One expansion cable each Ea T1K 10CBL and T1K 10CBL 1 T1K 05CBL RR 1 and T1K 05CBL LL Pe ellie nme me nnt TT m CILELTECLLTCTDNELTLLLTTLIULD MORAIN One expansion cable each f RR T1K 10CBL 1 and T1K 05CBL RR 1 T1K 05CBL RR 1 Expansion Cable ip er _ eer eon LM y WS FARRARPE UNI ym M E pl HRARHDA DOPPARPMRPORPRAN HOUR Terminator Installation and I O Manual 3rd Edition 3 15 Chapter 3 I O Wiring and Specifications Types of Modules Available for the Terminator System The table below lists the type of modules are available for the Terminator by category Terminator 1 0 Module Unit Slave System Only one per slave node system Mount to the right of the first power supply Additional Power Supplies Yes see Note DC Input Modules Yes AC Input Modules Yes DC Output Modules Yes AC Output Modules Yes Relay Output Modules Yes Analog Modules volt cur
94. er 3 I O Wiring and Specifications In some cases using the built in auxiliary 24 VDC supply can result in a cost savings for your control system It can power combined loads up to 500mA if power budget allows Be careful not to exceed the current rating of the supply If you are the system designer for your application you may be able to select and design in field devices which can use the 24 VDC auxiliary supply Powering I O Circuits with the Auxiliary Supply All AC power supplies feature an internal auxiliary supply If input devices AND output loads m need 24 VDC power the auxiliary supply may be able to power both circuits as shown in the following diagram 2 AC Power Power Input Terminator I O System Auxiliary Input Module Output Module 24 VDC Supply Inputs Com Outputs Com Y Y I ty 7 y Y ae Loads e DC powered units are designed for application environments in which low voltage DC power is more readily available than AC These include a wide range of battery powered applications such as remotely located control in vehicles portable machines etc For this type of application all input devices and output loads typically use the same DC power source Typical wiring for DC powered applications is shown in the following diagram DC Power 4
95. hapter 3 I O Wiring and Specifications In the next example a sinking DC output point is connected to the sinking input of a field device This is a little tricky because both the Terminator I O system output and field device input are sinking type Since the circuit must have one sourcing and one sinking device a sourcing capability needs to be added to the Terminator I O system output by using a pull up resistor In the circuit below a R is connected from the output to the DC output circuit power input ermin aion OR system DC Output Power DC pwr Example ICir uil wi with po Suppressipn Field Device pull up perc E EE 3 E 2 sinking Output Rinput uf cis Rd EN sinking i Supply E Common it Ground o eee NT cie ses t ge NOTE 1 DO NOT attempt to drive a heavy load gt 25 mA with this pull up method petet NOTE 2 Using the pull up resistor to implement a sourcing output has the effect of inverting the output point logic In other words the field device input is energized when the Terminator I O system output is OFF from a ladder logic point of view Your ladder program must comprehend this and generate an inverted output Or you may choose to cancel the effect of the inversion elsewhere such as in the field device It is important to choose the correct value of R pull up In order to do so you need to know the nominal input current to
96. icators LEDS HE ipd ON s E pin FU7 FU8 ON fuse 7 or 8 blown Fuses User Replaceable 8 10 A 250 V common 1 pt fuse T1K FUSE 3 NQ3 10 SOC Corp Weight 190 g Environmental Specifications Ambient Operating Temperature 32 F to 140 F 0 C to 60 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensing No corrosive gases The level of environmental pollution 2 UL 840 Atmosphere Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Method 514 2 Voltage Withstand 1500 VAC 1 minute Insulation Resistance 500 VDC 10 MQ NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Agency Approvals UL CE FCC class A Noise Immunity 3 64 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions Equivalent Output Circuit Output V e 1 NET L i YAZV i IM ww 40A T A o Optica
97. ied to the coil These transient voltages can damage PLC outputs or other electronic devices connected to the circuit and cause unreliable operation of other electronics in the general area Transients must be managed with suppressors for long component life and reliable operation of the control system This example shows a simple circuit with a small 24V 125mA 3W relay As you can see when the switch is opened thereby de energizing the coil the transient voltage generated across the switch contacts peaks at 140V Terminator Installation and I O Manual 3rd Edition 3 9 Chapter 3 I O Wiring and Specifications Example Circuit with no Suppression Volts 160 140 120 100 d VV 80 mE 60 za NG Relay Coil 40 Oscilloscope 24V 125mA 3W 20 AutomationDirect part no 0 750 2C 24D 20 In the same circuit replacing the relay with a larger 24V 290mA 7W relay will generate a transient voltage exceeding 800V not shown Transient voltages like this can cause many problems including Relay contacts driving the coil may experience arcing which can pit the contacts and reduce the relay s lifespan Solid state transistor outputs driving the coil can be damaged if the transient voltage exceeds the transistor s ratings In extreme cases complete failure of the output can occur the very first time a coil is de energized Input circuits which might be connected to
98. in the wires 10 To reduce the risk of having a module with a blown fuse we suggest you add external fuses to your I O wiring A fast blow fuse with a lower current rating than the I O module fuse can be added to each common or a fuse with a rating of slightly less than the maximum current per output point can be added to each output Output Module Fusing All Terminator I O discrete output modules have internal user replaceable fuses For fuse specifications and part numbers for a specific output module refer to the output module specifications later in this chapter Be sure to remove system power or disable outputs via the Base Contoller switch before attempting to remove the I O module from its base Refer to the next section I O Module Hot Swap Feature if attempting to remove an I O module with the system power ON Fuses located under top cover of output modules Note A blown fuse indicator illuminates only when a fuse is blown and and associated output point is turned ON by the program Replaceble Fuses 3 20 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications 1 O Module Hot Swap Feature The Hot Swap feature allows Terminator I O modules to be replaced with Terminator I O system power ON Be careful not to touch the terminals with your hands or any conductive material to avoid the risk of personal injury or equipment damaged Always remove power if it is equally
99. inator VO TiH EBC100 OLINKIACTITY O ERROR OSERIL RX O MODULE GOOD O 100NB1T O ZSERAL X RS 232 uy Lee x10 f NODE ADDR ER SERIAL PORT Serial ub Rotary 80 3 15 T1K EBC100 Ethernet Port Pinout Patch Straight through Cable EBC HUB EBC Tp 1 ORMHT ORWHT 4 RD tps 4 TD 2 2 RD TD 2 RD 3 GRNWHT SENA 3 TD RD 3 4 4 4 z BLUWHT BLUWHT g _ gt GRN GRN 7 E RD BRN WHT BRN WHT 22m RD S BRN BRN amp RJ 45 RJ 45 RJ 45 t O J mm in Crossover Cable PC OR WHT GRN WHT on mim OR WHT gi GRN WHT 2 BD 4 GRN or 9 6 RD 7 8 RJ 45 This diagram illustrates the standard wire positions in the RJ 45 connector We strongly reccommend that you use Category 5 or better UTP cable 10 100BaseT 12345678 8 pin RJ 45 connector 8P8C 123456 6 pin RJ 12 connector RJ 12 T1K EBC100 Serial Port Pinout Serial Port Pin Descriptions Pin Signal Definition OV Power connection GND 5V Power connection RXD Receive Data RS 232C TXD Transmit Data RS 232C 5V Request to send oV Clear to Send Terminator Installation and I O Manual 3rd Edition 3 33 Chapter 3 I O Wiring
100. l DC Required Some output modules require external power for the output circuitry ON Voltage Drop Sometimes called saturation voltage it is the voltage measured from an output point to its common terminal when the output is ON at max load 3 26 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Maximum Leakage Current The maximum current a connected maximum load will receive when the output point is OFF Maximum Inrush Current The maximum current used by a load for a short duration upon an OFF to ON transition of a output point It is greater than the normal ON state current and is characteristic of inductive loads in AC circuits Base Power Required Power from the base power supply is used by the Terminator I O modules and varies between different modules The guidelines for using module power is explained in the power budget section of this manual OFF to ON Response The time the module requires to process an OFF to ON state transition ON to OFF Response The time the module requires to process an ON to OFF state transition Terminal Type Indicates whether the terminal type is a removable or non removable connector or a terminal Status Indicators The LEDs that indicate the ON OFF status of an input point These LEDs are electrically located on either the logic side or the field device side of the input circuit Weight Indicates the weight of the module Fuses Protective de
101. l Isolator 17 240 VAC COM Note Apply the labels that come with the I O 9 2 0 36 gt 89 3 5 i i 8 1 0 32 Mss e I O base to properly identify the om co J erminal points Terminator VO Output Points ololelelololololololololololo o Fuses located D e ma 0 fa 2 13 4 5 6e 7 undetopcoverl x H Fuz fua Fue FUB oe B e L o ael del lel s le gt Ed co 0 1 2 3 4 5 6 z dlolololololololo 0000000000000000 col C1 C21 C31 C4 SE Dololololoolo SVG SK SS VS SGVGG9NG s ommons SOSSGSSSOSSOSSOSOQS N A CASINI NINY SINSI NI NYT Ww udi SOSOSOSOSSOSSSSSSSSSe W e e lelelelelelelelelelelelele e E rs pene vo v1 v2 V3 8 1 0 32 O G V 0 V 3 not used with AC Output Modules mm in Date Code 008 Date Code 012 and later Derating Chart Derating Chart Points TUK us TUK 1 5A 6 1 5A 2 0A a 2 0A ss N 2 T T T T 0 T T T T T 0 10 20 30 40 50 55 C 0 10 20 30 40 50 55 C 32 50 68 86 104 122 131 F 32 50 68 86 104 122 131 F Ambient Temperature C F Ambient Temperature C F Side View Terminator Installation and I O Manual 3rd Edition 3 65 Chapter 3 I O Wiring and Specifications T1K 08TR Relay Output Specifications Outputs Per Module 8 Output Type Relay Form A SPST normally open Commons Per Module 2 4 pts common isolated Operating Voltage Range 6 240 VAC 47 63 Hz 6 27 VDC Output Voltage Range aded aL min max Max Lo
102. link configured 1 0 module no longer reporting see auto configuring above Slow Blink unconfigured I O module added to system see auto configuring above LINK GOOD green On 10Base T link pulses are being received ACTIVITY red On Ethernet network activity detected ERROR red On watchdog timer timeout represents hardware communications or network fault power on reset or reset within master device software Communications Port RJ 12 RS 232C K Sequence protocol ASCII not functional when used with H2 ERM Base Power Requirements 350 mA 5 VDC EBC Serial port supports up to 500 mA 5 VDC add for power budget consumption General Specifications Installation Requirements Mounts to the right of the first power supply Operating Temperature 32 F to 131 F 0 C to 55 C Storage Temperature 4 F to 158 F 20 C to 70 C Relative Humidity 5 to 95 Non condensing Environmental Air No corrosive gases The level of environmental pollution 2 UL 840 Vibration MIL STD 810C Method 514 2 Shock MIL STD 810C Method 514 2 Noise Immunity NEMA 1CS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm 3 3 0 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications
103. meter 7 1 42 mm each Cable Insulation Voltage 2000 VAC 1 minute 3 12 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Dimensions lt 40 1 58 gt 81 032 Q L y 80 3 15 84 032 8 1 0 o mm in Cable Length 100cm Cable Diameter 8 5mm 30 1 18 H 32 N c 3 cb e t mm in 9 2 0 36 D 8 1 0 32 le 40 1 58 gt 0 841 0 32 R e S MOJ mm in Terminator Installation and I O Manual 3rd Edition 3 113 Chapter 3 I O Wiring and Specifications T1K 5CBL LL 1 Expansion Cable Specifications Specification T1K 05CBL LL T1K 05CBL 1 LL 1 Cable Description Left to left Side Expansion Cable Cable Length 50 cm 1 64 ft Cable Diameter 8 5 mm Shielding None Temperature Range 25 C to 80 C 13 F to 176 F Jacket Material PVC Auxiliary 24 VDC Cable Cable Diameter Two 1 42 mm cables used in a 6 mm sheath Insulation Voltage 2000 VAC 1 minute T1K 5CBL RR 1 Expansion Cable Specifications Specification T1K 05CBL RR T1K 05CBL 1 RR 1 Cable Description Right to right Side Expansion Cable Cable Length
104. monitor the coil or the output driver can also be damaged by the transient voltage A very destructive side effect of the arcing across relay contacts is the electromagnetic interference EMI it can cause This occurs because the arcing causes a current surge which releases RF energy The entire length of wire between the relay contacts the coil and the power source carries the current surge and becomes an antenna that radiates the RF energy It will readily couple into parallel wiring and may disrupt the PLC and other electronics in the area This EMI can make an otherwise stable control system behave unpredictably at times PLC s Integrated Transient Suppressors Although the PLC s outputs typically have integrated suppressors to protect against transients they are not capable of handling them all It is usually necessary to have some additional transient suppression for an inductive load The next example uses the same 24V 125mA 3W relay used earlier This example measures the PNP transistor output of a D0 06DD2 PLC which incorporates an integrated Zener diode for transient suppression Instead of the 140V peak in the first example the transient voltage here is limited to about 40V by the Zener diode While the PLC will probably tolerate repeated transients in this range for some time the 40V is still beyond the module s peak output voltage rating of 30V 3 10 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiri
105. n page 3 17 The external 24 VDC wiring options below are not recommended when intending to Hot Swap DC output or analog I O modules Using T1K 01AC for External 24 VDC Power Use T1K 01AC external 24 VDC to create a power bus for DC modules Place wire jumpers from one DC I O module base to another as necessary to continue the external 24 VDC power bus Using an External 24 VDC Power Supply Use an external 24 VDC power supply to Place wire jumpers from one DC I O module create a power bus for the DC modules base to another as necessary to continue the external 24 VDC power bus Terminator Installation and I O Manual 3rd Edition 3 19 Chapter 3 I O Wiring and Specifications I O Wiring Checklist Use the following guidelines when wiring the base terminals in your system 1 There is a limit to the size of wire the terminals can accept The table below lists the suggested AWG for each module type Always use a continuous length of wire do not combine wires to attain a needed length Use the shortest possible wire length Use wire trays for routing where possible Avoid running wires near high energy wiring Avoid running input wiring close to output wiring where possible N On dU D To minimize voltage drops when wires must run a long distance consider using multiple wires for the return line 8 Avoid running DC wiring in close proximity to AC wiring where possible 9 Avoid creating sharp bends
106. ng No corrosive gases The level of environmental pollution 2 UL 840 Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Method 514 2 Voltage Withstand 1500 VAC 1 minute Insulation Resistance 500 VDC 10 MO NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Atmosphere Noise Immunity 3 28 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Dimensions 9 2 0 36 48 1 89 8 1 0 32 Q Wwe B Terminator I O Tea Eram a d n 8 QD ee p PWRO QD zu Olen eS R rh 16 L Qj e g Q T7 Q M E e QL 2l 8 Od O Os TIK 01AC Win TIK 01DC J 12 24 VDC PULLTO UNLOCK 7 Terminal Strip J Y 10 3 0 41 G Ih Power Supply 1 L 01
107. ng and Specifications Example Small Inductive Load with Only Integrated Suppression Oscilloscope m Volts For this example a 24V 125mA 3W 45 relay is used AutomationDirect 40 part no 750 2C 24D 35 30 25 To LED 20 15 10 5 Optical isolator 0 ae ee pe ES 5 The next example uses the same circuit as above but with a larger 24V 290mA 7W relay thereby creating a larger inductive load As you can see the transient voltage generated is much worse peaking at over 50V Driving an inductive load of this size without additional transient suppression is very likely to permanently damage the PLC output Example Larger Inductive Load with Only Integrated Suppression Oscilloscope Volts For this example a 24 290mA 7W relay is used AutomationDirect 50 part no SC E03G 24VDC 40 24 u ome To LED 2 Common Optical 0 Isolator 10 Additional transient suppression should be used in both these examples If you are unable to measure the transients generated by the connected loads of your control system using additional transient suppression on all inductive loads would be the safest practice Terminator Installation and I O Manual 3rd Edition 3 11 Chapter 3 I O Wiring and Specifications Types of Additional Transient Protection DC Coils The most effective protection against t
108. nnected to the 0 V terminal on the module then the output of the external transmitter P must be isolated To avoid ground loop errors recommended 4 20 mA transmitter types are a For 2 or 3 wire connections Isolation between the input supply signal and Side View the power supply For 4 wire connections Isolation between the input supply signal the power supply and the 4 20 mA output Equivalent Input Circuit Input Signal Ranges 0 20mA 4 20mA Transmitter Supply Module Supply 20mA 20mA 18 30 VDC 24 VDC Ueda at ee ee See NOTE 1 5 Lg VOM Internal Module Circuitry oma us amp d gt 0 8191 1638 8191 Input a 3 Wire j Wma e 7 20 to 20mA Current Fuse 1 Ato D Transmitter i 250 ohms amp Converter 20m e OmA COM 20mA 8191 8191 Terminator Installation and I O Manual 3rd Edition 3 77 Chapter 3 I O Wiring and Specifications T1F 16AD 2 16 Channel Voltage Analog Input Specifications Number of Channels 16 single ended 1 common Input Ranges 0 5V 0 10V 5V 10V Resolution 14 bit 13 bit plus sign bit Frequency Response 3 db 500 Hz 20 db decade Input Resistance 200 KQ min Absolute Maximum Ratings Fault Protected Input 130 V rms or 100 VDC Conversion Time 5 ms per channel Linearity Error 2 count max Input Stability 1 coun
109. ns Isolation between the input supply signal and r the power supply For 4 wire connections Isolation between the input supply signal the power Side View supply and the 4 20 mA output Equivalent Input Circuit Input Signal Ranges Transmitter Supply Module Supply 0 20m 4 20mA 18 30 VDC EE 24 VDC 20mA 20mA ee Ne eens See NOTE 1 m L V0 internal Module Circuitry AmA gt OmA Input a 0 8191 1638 8191 3 Wire x Xil e o Current Transmiter es PIA 2 converter Ato 20min 1 20m e OmA COM gt ER LI ANUS I LE 20mA 8191 8191 Terminator Installation and I O Manual 3rd Edition 3 73 Chapter 3 I O Wiring and Specifications T1F 08AD 2 8 Channel Voltage Analog Input Specifications Number of Channels 8 single ended 1 common Input Ranges 0 5V 0 10V 5V 10V EH Resolution 14 bit 13 bit plus sign bit Frequency Response 8 db 500 Hz 20 db decade Input Resistance 200 KO min Absolute Maximum Ratings Fault Protected Input 130 V rms or 100 VDC Nar Mode 5 ms AT Hind m ian Ti ast Mode 0 5 ms per channel Fast Mode supported in etat Normal Mode module hardware version B or later and only when using this i analog module with the T1H EBC 100 or TTH PBC control module Linearity Error 2 count max Input Stability 1 count Calibration Full Scale Error 8 counts max Calibration Offset Error 2 counts max Max Full Scale Inaccuracy 0 08 25 C
110. oad 8 counts max 250 Q load 6 counts max 125 O load Max Full Scale Inaccuracy of full scale all errors included SINK B loath 0 3 25 C any load 0 5 60 C SOURCE 400 Q load 0 63 25 C 400 Q load 0 83 60 C 250 Q load 0 44 25 C 250 Q load 0 64 60 C 125 Q load 0 30 25 C 125 Q load 0 50 60 C NOTE This module requires software setup via the Module Control Byte Refer to Chapter 4 3 98 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Output Wiring amp Dimensions 9 2 0 36 48089 gt A84 0 32 Input Channels a C3 e e e e e e e e Terminator O i Sinking Current IN1 IN2 IN3 IN4 INS ING IN7 IN8 3 Configuration olololalololg Pee Erare s Output Channels 3 Sink Channel Source Channel l l elelele eje e o d 4 j 2 Load nd n l 12 12 13 i fis wa 01234567 00000000 Sss uia dia gjdju SS lt S lt sg IL Uwuuwgwwuwu tL 4lt SSI ISESESESESESESESI ES
111. odule source O 2 090 O ir evi Internal Module Circuitry External Power Input a SINK EXT e ee Pr EE i j i Ava To LED 1 i MODULE Sink e fe a l Source Module SOURCE RA O O O O O int i COM E EETA o ptical Isolator can OMNES External Power ource z EXT anc o o MEME 12 24 VDC MODULE Internal Power MODULE cco ARAB son 2 RR SINK OO O O O OO EXT SINK AB 55525 EXT ELEC RR MEE Noo V 19 34 Source Module Internal Module Sink Module Input Internal cds i Internal Power Circuitry Internal Power _ Circuiiry PNP al Field COM 24 VDC Intemal Field COM 24 VDC Intemal Device Eee ducere Device TERCIO REIS Terminator Installation and I O Manual 3rd Edition 3 43 Chapter 3 I O Wiring and Specifications T1K 16ND3 DC Input Specifications Inputs Per Module 16 sink source ext power 4 isolated 4 pts com Commons Per Module int power 4 all 16 pts internally connected Operating Voltage 12 24 VDC Input Voltage Range 10 8 26 4 VDC min max Peak Voltage 30 VDC Input Current Typical 4 mA Q 12 VDC 8 5 mA Q 24 VDC Input Impedance 2 8 KO ON Voltage Level 10 0 VDC OFF Voltage Level 2 0 VDC Min ON Current 4 mA Max OFF Current 0 5 mA OFF to ON Response 2 8 ms Typical 4 ms ON to OFF Response 2 8 ms Typical 4 ms Base Power Requirements 70 mA Q 5 VDC Status Indicators Logic Side Weight 160 g
112. of full scale 9 o all errors included 0 26 60 C Master Update Rate 8 channels per scan max 256 discrete pts or 8 dwords Input Points Required d double word 32 bit word etwork Interface dependent Base Power Required 75 mA 5 VDC External Module Power Supply Req 18 30 VDC 50 mA class 2 Operating Temperature 0 to 60 C 32 to 140 F Storage Temperature 20 to 70 C 4 to 158 F Accuracy vs Temperature 50 ppm C max full scale Relative Humidity 5 to 95 non condensing Environmental Air No corrosive gases permitted Vibration MIL STD 810C 514 2 Shock MIL STD 810C 516 2 Noise Immunity NEMA ICS3 304 Weight 136g Input Range Resolution 0 4095 counts 0 8191 counts 4095 to 4095 counts 8192 to 8191 counts 3 74 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions 9 2 0 36 gt lt 48 1 89
113. ommon Resolution 12 bit 1 in 4096 Peak Output Voltage 15 VDC Load Impedance 4 KQ minimum Load Capacitance 0 01 uF maximum Linearity Error end to end 2 count maximum 0 050 of full scale maximum Conversion Settling Time 300 us maximum full scale change Full Scale Calibration Error 12 counts maximum Accuracy vs Temperature 50 ppm C full scale calibration change Offset Calibration Error 10 V ranges 5 counts 5 V ranges 9 counts Max Full Scale Inaccuracy of full scale all errors and temperature drift included 10 V ranges 0 2 25 C 0 4 Q 60 C 5V ranges 0 3 25 C 0 5 60 C Master Update Rate 4 channels per scan max Output Points Required 128 discrete pts or 4 Dwords 32 bit words Network Interface Dependent Module General Specifications Operating Temperature 0 to 60 C 32 to 140 F Storage Temperature 20 to 70 C 4 to 158 F Accuracy vs Temperature 50 ppm C max full scale Relative Humidity 5 to 95 non condensing Environmental Air No corrosive gases permitted Vibration MIL STD 810C 514 2 Shock MIL STD 810C 516 2 Noise Immunity NEMA ICS3 304 Weight 136g 3 102 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Outpu
114. ons 9 2 0 86 gt lt 48 189 N er 0 32 a N Terminator O Input points o O O O O O O O A TAK 08NACT O Po 0 1 2 3 4 5 6 7 g n y S l 1 a lo le le lo olol ol ol M UED 0 4 24 3 4 e 7 S 012 34 56 7 sorzovac lelele elelele A 00000000 COMO COM 1 WS 90 120 VAC J x TEL o9999999 EZ Commons wm uu eee oE O99999O93S9 gG LSS XU uu uuu x e elelejele ele 9969999 vo V1 eae Se See ee V 0 V 1 not used with AC Input Modules 8 1 0 32 Or ru mm ii Points Derating Chart 83 3 3 28 joe S 593 628 6 4 N Fen A i 0 b 20 do 40 5 55 C mna 32 50 68 86 104 122131 F pe Ambient Temperature C F LT Side View Equivalent Input Circuit EU Internal Module Circuitry V an Input e i 4 A 9 f M a i V x To LED oa l rE Optical Isolator 7 7 Terminator Installation and I O Manual 3rd Edition 3 47 Chapter 3 I O Wiring and Specifications T1K 16NA 1 AC Input Specifications Inputs Per Module 16 2 Commons Per Module 4 4 pts com isolated Ope
115. pecifications T1H EBC100 Ethernet Base Controller Specifications Module Type Ethernet Slave Communications 100Base T Ethernet Auto configuring 1 0 type position automatically identified during power up IP Configuration Obtain an IP address from a DHCP Server automatically at power up Default Dedicated IP address using NetEdit3 or HTML configuration Ethernet Protocols UDP IP IPX MODBUS TCP Ethernet Port RJ 45 Node Address 1 to 99 decimal set by rotary switches or software 0 default used for setting address via software only Link Distance 100 meters 328 feet Data Transfer Rate 100 MBaud or 10 MBaud auto detect LED Indicators NOTE All indicators re initialize during power up For more information consult the T1H EBC M User Manual MODULE GOOD green On module passed diagnostics check during last power up Fast Blink configured 1 0 module no longer reporting see auto configuring above Slow Blink unconfigured I O module added to system see auto configuring above LINK ACTIVITY green On Ethernet network activity detected 100 MBit green On Ethernet network activity detected at 100 Mbps Off with LINK ACTIVITY On Ethernet activity is auto detected at 10 Mbps ERROR red On watchdog timer timeout represents hardware communications or network fault power on reset or reset within master device software SERIAL T
116. put Modules Date Code 008 Derating Chart 8 1 0 32 Or Date Code 00Z and later Derating Chart lt 83 3 3 28 Points Points 8 0 5A E x o 6 0 75A 4 a NY 1 04 254 25 9 T T T T 0 T T T T T 0 10 20 30 40 50 55 C 0 10 20 30 40 50 55 C 32 50 68 86 104 122131 F 32 50 68 86 104 122131 F Ambient Temperature C F Ambient Temperature C F Side View Equivalent Output Circuit Internal Module Circuitry Output V e i EIU I e L l GARY ToLED C i 10A jeu sell i U d Optical Isolator 17 240 VAC COM i mm in Terminator Installation and I O Manual 3rd Edition 3 61 Chapter 3 I O Wiring and Specifications T1K 16TA AC Output Specifications Outputs Per Module 16 Commons Per Module 4 4 pts common isolated 2 Operating Voltage Range 17 240 VAC 47 63 Hz Output Voltage Range 15 264 VAC 47 63 Hz min max Max Load Current 1A pt 4A common subject to derating ON Voltage Drop 1 5 VAC Q 50 mA 4 0 VAC Q 50 mA Max Leakage Current 4 mA Q 264 VAC Max Inrush Current 10 A for 10 ms Min Load 10 mA OFF to ON Response 1ms ON to OFF Response lt 1 ms 1 2 cycle Base Power Requirements 450 mA 5 VDC Status Indicators Logic Side Error Status Indicators LE
117. ransients from a DC coil is a flyback diode A flyback diode can reduce the transient to roughly 1V over the supply voltage as shown in this example DC Flyback Circuit Volts Oscilloscope 30 M m TA 20 all 3 24VDC 45 pn Sinking Sourcing Many AutomationDirect socketed relays and motor starters have add on flyback diodes that plug or screw into the base such as the AD ASMD 250 protection diode module and 784 4C SKT 1 socket module shown below If an add on flyback diode is not available for your inductive load an easy way to add one is to use AutomationDirect s DN D10DR A diode terminal block a 600VDC power diode mounted in a slim DIN rail housing automationDiea ra wp 25 AD AS m p100E p i ome AD ASMD 250 784 4C SKT 1 DN D10DR A Protection Diode Module Relay Socket Diode Terminal Block 3 12 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Two more common options for DC coils are Metal Oxide Varistors MOV or TVS diodes These devices should be connected across the driver PLC output for best protection as shown below The optimum voltage rating for the suppressor is the lowest rated voltage available that will NOT conduct at the supply voltage while allowing a safe margin AutomationDirect s ZL TSD8 24 transorb module is a good choice for 24VDC circuits It is a bank of 8 uni directional 30
118. rating Temperature 32 F to 140 F 0 C to 60 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensing Atmosphere No corrosive gases The level of environmental pollution 2 UL 840 Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Method 514 2 Voltage Withstand Insulation Resistance 1500 VAC 1minute 500 VDC 10 MO NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm UL CE FCC class A Noise Immunity Agency Approvals 3 60 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions Output Points O O O O O O oG 2 S 213 4 5 6 7 i 9 2 0 36 48 1 89 gt ILI T ELS 0 32 Terminator I O T1K 08TA Fuses located M under top cover ll 7 FU1 FU2 54 3 2 14 3 80 8 15 17 240 VAC 17 240 VAC 01234567 9000000007 y animas 66696990 5 ap ee ee gt sssssssos X to elelelefelelele esssosss vo V1 IT SS eS a T G V 0 V 1 not used with AC Out
119. rating Voltage 90 120 VAC 47 63 Hz Input Voltage Range 80 132 VAC 47 63 Hz min max 8 mA 100 VAC eo Ha 10 mA 100 VAC 60 Hz Input Current 12 mA 132 VAC 50 Hx 15 mA 132 VAC 60 Hz Input Impedance 14 KO Q 50 Hz 12 KO 60 Hz ON Current Voltage gt 6 mA 75 VAC OFF Current Voltage lt 2 0 mA 20 VAC OFF to ON Response 40 ms ON to OFF Response 40 ms Base Power Requirements 70 mA Q 5 VDC Status Indicators Logic Side Weight 1209 Environmental Specifications Ambient Operating Temperature 32 F to 131 F 0 C to 55 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensing No corrosive gases The level of environmental pollution 2 UL 840 Atmosphere Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Method 514 2 Voltage Withstand 1500 VAC 1 minute Insulation Resistance 500 VDC 10 MQ NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Agency Approvals UL CE FCC class A Noise Immunity 3 48 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions
120. rent temp Yes CTRIO Counter 1 0 Modules Yes Base Controller NOTE One power supply is required in the leftmost component position followed by the Base Controller Additional power supplies should be added between I O modules as necessary to meet power budget requirements Each power supply powers the modules to its right but is interrupted by the next power supply It is not mandatory to have a power supply in the leftmost position on an expansion rack Expansion cables are available in two configurations one that passes 24 VDC base power through and one that does not Discrete Module Status Indicators The discrete I O modules provide LED status indicators to show the status of the I O points Most of the output modules have additional LEDs to indicate a blown fuse Status indicators Color Coding of I O Modules 3 16 The Terminator I O family of I O modules have a color coding scheme to help you quickly identify the module as either a power supply an input module or an output module This is done through a color mark indicator located on the front of each module The color scheme is shown in the diagram and table on the facing page Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Color marks Module Type Color Code Power Supply Green Base Controller Specialty White Discrete Analog Input Blue Discrete Analog Output
121. ries protect the operator interface and the operator from power input faults or field wiring faults When wiring a Terminator I O system it is extremely important to avoid making external connections that connect logic side circuits to any other Primary Side Secondary or Field Side Logic side Terminator I O System backplane Input betes Power Input Main Slave Module m eMe P Supply CPU backplane Output gt Outputs Module Isolation Programming Device Isolation Boundary Operator Interface or Network Boundary The next figure shows the physical layout of a Terminator I O system as viewed from the front In addition to the basic circuits covered above AC powered bases include an auxiliary 24 VDC power supply with its own isolation boundary Since the supply output is isolated from the other three circuits it can power input and or output circuits Terminator I O Primary Side System Secondary or Main Logic side Power Input T Power Slave Supply d Internal Backplane Auxiliary 24 VDC Out lt 24 VDC Kk Comm Input Module Output Module Supply 1 T 7 jer Operator Inputs Commons Outputs Commons Interface Field Side Supply for Output Circuit 3 2 Terminator Installation and I O Manual 3rd Edition Chapt
122. rminator Installation and I O Manual 3rd Edition 3 45 Chapter 3 I O Wiring and Specifications T1K 08NA 1 AC Input Specifications Inputs Per Module 8 Commons Per Module 2 4 pts com isolated Operating Voltage 90 120 VAC 47 63 Hz Input Voltage Range 80 132 VAC 47 63 Hz min max 10 mA a 100 VAC 80 Hi m Z Input Current 12 mA 132 VAC 50 Hx 15 mA 132 VAC 60 Hz Input Impedance 14 KO 50 Hz 12 KO 60 Hz ON Current Voltage gt 6 mA Q 75 VAC OFF Current Voltage lt 2 0 mA 20 VAC OFF to ON Response 40 ms ON to OFF Response 40 ms Base Power Requirements 35 mA Q 5 VDC Status Indicators Logic Side Weight 70g Environmental Specifications Ambient Operating Temperature 32 F to 131 F 0 C to 55 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensing Atmosphere UL 40 gases The level of environmental pollution 2 Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Method 514 2 Voltage Withstand 1500 VAC 1 minute Insulation Resistance 500 VDC 10 MO NEMA 1CS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Agency Approvals UL CE FCC class A Noise Immunity 3 46 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensi
123. s 2 0 36 89 3 5 N A 8 1 0 32 a Terminator I O T1H CTRIO U J vis 2 Input Output Channels Hox E rox a x Ma Q O Q OIOIOoO OoJojIoojoojoooo Ec 1A MB MC 4D YO YO Y1 Y1 2A 2B 2C 2D Y2 Y2 Y3 Y3 0 0 li o 0 U U T Uu U U 1A 1B 1C 1D YO YI 2A 2B 2C 2D Y2 Y3 E SSS Channel Commons Y GC VG KOH GS GS VG GS d QOO O0 JO O OIOIOJOO0 OoJoJIoo0oo0oO EELSSSS 6699999999 1MAM 1M 1M C0 co C1 C1 2M 2M 2M 2M C2 C2 c3 C3 8 888 HHH H88S SHHs uipjd OJOJOO ydg dgju ud aridi gl x SESS A 103 LO LO J User Bus Terminals no internal connection to CTRIO e e e eje e e e e e e e e e e o lt 83 3 3 28 gt mm dn USER BUS 1 USER BUS 2 a u u u o u u u o u u D O B j NOTE Apply the labels that come with the 1 0 module to the I O base terminals to properly i identify the base terminal points ad View LED Indicators LED Diagnostic Definitions LED Descriptions OK ERR Description OK Module OK ON OFF All is well Run Mode ERR User Program Error ON ON Hardware Failure CH1 Channel 1 Status Blinking Blinking Boot Mode Use for Field OS Upgrades CH2
124. s not isolated 0 1 2 3 4 8 6 7 8 9 10 11 12 13 14 15 4K ohm 2122121221212 22121221212 TEA 2 Oe Oe 90 99 90 99 delet COMO COM1 COM2 COM3 d A njooo N eee See eS eS OS OO SSE 99699999999999999 9 x LET Ww Uw Uo XAx rr iD SK VYCGCYOGGVS GS GV VV ggg e J oleje Ee VO V1 V2 V3 T 8 1 0 32 V LOJ LO 5 Module Supply Note VO and V1 Note V 2 and V 3 internally 24 VDC internally connected connected to Commons mm in NOTES lt 83 3 3 28 gt 1 Shields should be connected to the 0 V terminal of the module or the 0 V of the power supply o 2 Unused voltage outputs should remain open no connections for minimum power consumption ji Unipolar Ranges Bipolar Ranges ov 5V ov 10V 5V to 5V 10V to 10V re bes 5V 10V 45V 10V wl ilo Side View ov ov 5V aw 0 4095 0 4095 0 2047 4095 0 2047 4095 Equivalent Output Circuit Module Supply 24NDG 1 a ee ee a ee Ses TT VO V1 Internal Module Circuitry 2 v2 v3 See Note 1 Output Voltage Sink Source Load e 4k onim DtoA minimum 1 Converter 5 COM Terminator Installation and I O Manual 3rd Edition 3 87 Chapter 3 I O Wiring and Specifications T1F 16RTD RTD Input Module Specifications Number of Channels 16 Resolution 0 1 C or F Common Mode Range 0 5 VDC Notch Filter gt 50 db notches 50 60 Hz f 3 db 13 1 Hz Absolute Max Ratings 50 VDC Converter
125. se 8 db 500 Hz 20 db decade Input Resistance 250 Q Absolute Maximum Ratings 8V max Input Conversion Time 5 ms per channel Linearity Error 2 count max Input Stability 1 count Full Scale Error Offset Error not included 16 counts max Offset Error 2 counts max Max Full Scale Inaccuracy of full scale all errors included 0 18 Q 25 C 0 36 60 C Master Update Rate 16 channels per scan max Input Points Required 512 discrete pts or 16 dwords d double word 32 bit word etwork Interface dependent Base Power Required 75 mA 5 VDC External Module Power Supply Req 18 30 VDC 50 mA class 2 Recommended Fuse 0 032 A 5 VDC Operating Temperature 0 to 60 C 32 to 140 F Storage Temperature 20 to 70 C 4 to 158 F Accuracy vs Temperature 50 ppm C max full scale Relative Humidity 5 to 95 non condensing Environmental Air No corrosive gases permitted Vibration MIL STD 810C 514 2 Shock MIL STD 810C 516 2 Noise Immunity NEMA ICS3 304 Weight 168g Input Range Resolution 20 to 20 mA 8192 to 8191 counts 0 20 mA 0 8191 counts 4 20 mA 1638 8191 counts 3 76 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions
126. ses The level of environmental pollution 2 UL 840 Vibration MIL STD 810C Method 514 2 Shock MIL STD 810C Method 514 2 Noise Immunity NEMA 1083 304 Impulse Noise 1 xs 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Manufacturer Host Automation Products 3 40 Terminator Installation and I O Manual 3rd Edition Dimensions Profibus Connector 83 3 3 28 L o Wo Azx2ovocu mozxvu SSS D PULL TO UNLOCK RxD TxD P DGND VP RxD TxD N Chapter 3 I O Wiring and Specifications 9 2 0 36 48 1 89 8 1 0 32 N Terminator I O ls O MODULE STATUS AN o Q ERROR Profibus Base Controller 2 e 16 E LET Eum ie E Si Serial Port Lo Rotary Sk Y V Node 10 3 0 41 Switches v O mm in T1H PBC Port Pinout Shield OOOO RxD TxD P DGND VP RxD TxD N Use Belden Profibus 3079A Cable or Siemens 6XV1 830 0AH10 Serial Config Port Use for firmware upgrades only 123456 RJ 12 plug on cable Serial Port Pin Descriptions Signal Definition 0v Power connection
127. solated E ZEN P S i a DA J P S i Last ga 5 36 VDC 3 Opto Isolator i a VDC Out Opto Isolator To LED PLE Cay TOLED CURES E TT i FH Terminator Installation and I O Manual 3rd Edition 3 55 Chapter 3 I O Wiring and Specifications T1K 16TD1 DC Output Specifications Outputs Per Module 16 sink Commons Per Module 4 internally connected Operating Voltage Range 6 27 VDC Output Voltage Range 5 30 VDC min max Peak Voltage 50 VDC Max Load Current 1A pt 4A common Max Leakage Current 15 uA Q 30 VDC ON Voltage Drop 0 3 VDC Q 1 0A Max Inrush Current 2A for 100 ms OFF to ON Response 10 us ON to OFF Response 60 us Base Power Requirements 200 mA 5 VDC External Power Required 400 mA max 20 28 VDC Status Indicators Logic Side 24 V ON low external power Error Status Indicators LEDS FU1 FU2 ON fuse 1 or 2 blown FU3 FUA ON fuse 3 or 4 blown Fuses User Replaceable 4 6 3 A 250 V common 4 pts fuse T1K FUSE 1 NQ3 6 3 SOC corp Weight 140g Environmental Specifications Ambient Operating Temperature 32 F to 140 F 0 C to 60 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensing No corrosive gases The level of environmental pollution 2 UL 840 Atmosphere Vibration Resistance MIL STD 810C Method 51
128. stallation and I O Manual 3rd Edition 3 1 15 Chapter 3 I O Wiring and Specifications Cable Connection Examples This is an example using the TIK 05CBL RR T1K 05CBL RR 1 cable It is always connected from the right side to the right side j NOTE Do not put a power supply P S on the expansion row in this example P S I F 1 0 Signals n Current Right Side M j L Mur I O Addressing O O VO l Signals d Right Side lt i m I O Addressing 3 116 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications When another expansion row is added to the example on the left a T1IK 05CBL LL T1K 05CBL LL 1 cable is used It is always connected from the left side to the left side but it is never used as the first cable P S I F l O Signals ea _ gt R Right Side Current P 4 a I O Addressing R Right Side Current Current eu c E a r SS I O Addressing Signals I O 1 0 VO P S 1 0 l O L Current Or per r I O Addressing I O Addressing Or 0 P S I O P S I O 1 0 a SE EE EL a l O Addressing ES er Ar P gn t xan row tut cnet trough tu TOBE ei Terminator Installation and I O Manual 3rd Edition 3 1 17
129. sure that each of the analog I O and DC output module s 24 VDC and 0 VDC base terminals are wired directly to the external power supply individually see diagram below If the external 24 VDC 0 VDC is jumpered from base to base in a daisy chain fashion and an analog I O or DC output module is removed from its base the risk of disconnecting the external 24 VDC 2 to the subsequent I O modules exists Wire each analog or DC output module independently to the external power supply Do not jumper modules together creating 24 VDC bus for Hot Swap Terminator Installation and I O Manual 3rd Edition 3 2 1 Chapter 3 I O Wiring and Specifications Calculating the Power Budget Managing the Power Resource When determining the types and quantity of I O modules to be used in the Terminator I O system it is important to remember there is a limited amount of power available from the power supply A chart is provided to help you easily see the amount of power available with AC and DC power supplies At the end of this section you will also find an example of power budgeting and a worksheet showing sample calculations If the chosen I O exceeds the maximum power available from the power supply the problem is corrected by simply adding another power supply WARNING It is extremely important to calculate the power budget correctly If you exceed the power budget the system may operate in an unpredictable manner
130. t Calibration Full Scale Error 8 counts max Calibration Offset Error 2 counts max Max Full Scale Inaccuracy of full scale all errors included 0 08 Q 25 C 0 26 60 C Master Update Rate 16 channels per scan max Input Points Required 512 discrete pts or 16 dwords d double word 32 bit word Network Interface dependent Base Power Required 75 mA 5 VDC External Module Power Supply Req 21 6 26 4 VDC 50 mA class 2 Operating Temperature 0 to 60 C 32 to 140 F Storage Temperature 20 to 70 C 4 to 158 F Accuracy vs Temperature 50 ppm C max full scale Relative Humidity 5 to 95 non condensing Environmental Air No corrosive gases permitted Vibration MIL STD 810C 514 2 Shock MIL STD 810C 516 2 Noise Immunity NEMA ICS3 304 Weight 160g Input Range Resolution 0 4095 counts 0 8191 counts 4095 to 4095 counts 8192 to 8191 counts 3 78 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions
131. t Wiring amp Dimensions 2 0 36 gt lt 48 1 89 gt Input Channels LL 8 1 0 32 109101091319 l S IN1 1N2 IN3 JIN4 iN5 ING IN7 IN8 Terminator VO f LS T1F 8AD4DA 2 a e d COM Outputs og e l e e e e e e ON z Load o 1 7 aram COM COM COM COM OUT1 OUT2 OUT3 OUT4 012834567 o0o0oooooQO0Q0 E A 6666000990990 S SKSCVQVQgggrr SSS ee wot O voc zm ele o o lo 6999995996 N 24 VDC Y VO V1 pS ST SS A Oe SF I T r All COM terminals internally connected 1 0 32 l Op NOTES mE 1 V 1 terminals are internally connected 2 Shields should be connected to the 0 V terminal of the module at the 0 V terminal of the power supply 0 5V 0 4095 3 Unused voltage outputs should remain open no connections for EA 0 to 10V 0 4095 minimum power consumption 5V 0 4095 Unipolar Ranges 10V 0 4095 0v 5V 0V 10V 5V 10v Equivalent Output Circuit q p ov ov 0 4095 0 4095 Module Supply 24 VDC AIT ee eee ee ee es ne Bi olar Ran es A vo Internal Module Circuitry P 9 s E V1 OV 7
132. tection Output trips at 6 A min 12 A max Max Load Voltage 36 VDC Max Leakage Current 75 pA Max ON State Voltage Drop 0 3 VDC Q 2 0 A 0 15 V 9 1A Inrush Current 5A for 20 ms OFF to ON Response lt 3 us ON to OFF Response 100 us Base Power Requirements 200 mA max Thermal Shutdown Between Tjunction 302 F to 374 F 150 C to 190 C Over Temperature Reset Thermal shutdown temp minus 5 F 15 C Status Indicators Logic Side Weight 93 6g Environmental Specifications Ambient Operating Temperature 32 F to 140 F 0 C to 60 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensing Atmosphere UL 40 gases The level of environmental pollution 2 Vibration Resistance MIL STD 810C Method 514 2 Shock Resistance MIL STD 810C Method 514 2 Voltage Withstand 1500 VAC 1 minute Insulation Resistance 500 VDC 10 MO NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 144 MHz 430 MHz 10 W 10 cm Agency Approvals UL CE FCC class A Noise Immunity 3 594 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions Note Apply the labels that come with the I O
133. tput Channels 2 2 4 Wire o O O O O O O O 2 Wire LULA g Current Current vater ehehehe mme NI 255590 0 00 0 0 0j0jo x Tesesesgggg F Transmitter Supply ToT g 18 30 VDC ths r 99 969 99 9989 ar a a A A N OJO O OJO OJ O MESSSSEASBSBSBSBS BS Module Supply E Se V 24vDC vo l Note All V 0 terminals internally connected 8 1 0 32 V O All V 1 terminals internally connected mm in NOTE Apply the labels that come with the 1 0 module to the I O base terminals to properly identify the base terminal points 83 3 3 28 NOTES i 1 Shields should be grounded at the signal source 2 More than one external power supply can be used provided all the power f supply commons are connected 3 A Series 217 0 032 A fast acting fuse is recommended for 4 20 mA current loops 4 If the power supply common of an external power supply is not connected res to the OV terminal on the module then the output of the external transmitter E must be isolated To avoid ground loop errors recommended 4 20 mA Side View transmitter types are For 2 or 3 wire connections Isolation between the input supply signal and the power supply For 4 wire connections Isolation between the input supply signal the power supply and the 4 20 mA output Input Signal Ranges Equivalent Input Circuit AA doo 20mA 20mA Transmitter Supply Module Supply 18 30 VDC n 24 VDC EE DLE ME SUE 4mA See NOTE 1 PET amp VO Internal
134. um Ratings Fault Protected Input 130 V rms or 100 VDC Conversion Time 5 5 ms per channel Linearity Error 2 count max Input Stability 1 count Calibration Full Scale Error 8 counts max Calibration Offset Error 2 counts max Max Full Scale Inaccuracy of full scale all errors included 0 08 25 C 0 26 60 C Master Update Rate 8 channels per scan maximum Input Points Required 256 discrete pts or 8 dwords d double word 32 bit word etwork Interface dependent Base Power Required 75 mA 5 VDC External Module Power Supply 21 6 26 4 VDC 70 mA class 2 External Transmitter Power Supply 18 30 VDC 70 mA class 2 Input Range Resolution 0 4095 counts 0 8191 counts 4095 to 4095 counts 8192 to 8191 counts NOTE Apply the labels that come with the I O module to the O base terminals to properly identify the base terminal points 3 100 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications 80 3 15
135. umidity 5 to 95 relative humiditiy Non condensing Voltage Withstand 1500 VAC 1 minute DeviceNet connector internal Insulation Resistance 500 VDC 10 MQ DeviceNet connector internal Vibration Resistance MIL STD 810C Method 514 2 Shock MIL STD 810C Method 514 2 Noise Immunity NEMA ICS3 304 Impulse Noise 1 us 1000 V FCC class A RFI 145 MHz 435 MHz 10 W 10 cm Atmosphere No corrosive gases _ Environmental Pollution Level 2 Weight 6 0 oz 170 g 3 34 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Dimensions DeviceNet Connector 83 3 3 28 T1K DEVNETS Serial Port Pinout 69996 o SSN OOSOS Ou TIK DEVNETS f PULL TO UNLOCK V black CAN Low blue Shield bare CAN High white V red Use Belden Cable 30844 or equivalent Serial Port oo L I 10 m cO NI L L RJ 12 123456 Serial Port Pin Descriptions Signal Definition OV Power connection GND 5V Power connection RXD Receive Data RS 232C TXD Transmit Data RS 232C RTS Request to send
136. ut circuit discussions It is the goal of this section to make these concepts easy to understand further ensuring your success in installation First the following short definitions are provided followed by practical applications Sinking provides a path to supply ground Sourcing provides a path to supply source 4 First you will notice these are only associated with DC circuits and not AC because of the reference to 4 and polarities Therefore sinking and sourcing terminology only applies to DC input and output circuits Input and output points that are sinking or sourcing only can conduct current in only one direction This means it is possible to connect the external supply and field device to the I O point with current trying to flow in the wrong direction and the circuit will not operate However you can successfully connect the supply and field device every time by understanding sourcing and sinking For example the figure to the right depicts a sinking input To properly connect the external Input Lindo EVO Deta supply you will have to connect it so the input 9 Cn provides a path to ground Start at the z Terminator I O system input terminal follow c a NE Input through the input sensing circuit exit at the SE Sensing common terminal and connect the supply to Common the common terminal By adding the switch EENE between the supply and the input
137. ver of TIK 08ND3 and T1K 16ND3 Position jumper to set the module to sink or source current Position jumper to set the module to provide internally bussed 24 VDC or zIpE lel if external power is to be supplied Using Internal 24 VDC Base Power The diagram below shows DC input devices using internally bussed 24 VDC for power If the module is set to sink current 24 VDC power is supplied to the input module base COM terminals and 0 VDC is supplied to the module base V terminals If the module is set to source current 24 VDC is supplied to the input module base V terminals and 0 VDC is supplied to the module base COM terminals Using Internally Bussed 24 VDC T1K 08ND3 T1K 16ND3 only g y y 2 and 3 wire input field devices 3 18 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications External 24 VDC Wiring Options DC output and analog I O modules do not have direct access to the internally bussed 24 VDC External user supplied 24 VDC power or auxiliary 24 VDC from the T1K 01AC can be applied directly to one end of the DC I O module base terminal V and COM rows and jumpered across each base as needed in a system This creates a bus row of 24 VDC and a bus of 0 VDC power Be sure not to exceed the supply s power budget e X NOTE If you intend to use the I O module Hot Swap feature refer to the Check External 24 VDC Wiring m Before Hot Swapping section o
138. vices for an output circuit which stop current flow when current exceeds the fuse rating They may be replaceable or non replaceable or located externally or internally Terminator Installation and I O Manual 3rd Edition 3 27 Chapter 3 I O Wiring and Specifications T1K 01AC T1K 01DC Power Supply Specifications Specification T1K 01AC T1K 01DC Input Voltage Range 110 220 VAC 85 264 VAC 12 24 VDC 10 8 26 4 VDC Input Frequency 50 60 Hz 47 63 Hz ESI Maximum Power 50 VA 20W Maximum Inrush Current 20A 10A Insulation Resistance 10 MO 500 VDC Voltage Withstand Dielectric 1 min 1500 VAC between primary secondary and field ground Auxiliary 24 VDC Supply 300 mA maximum Output 1 Voltage 5 25 VDC 5 00 5 50 VDC 5 25 VDC 5 00 5 50 VDC 5 VDC a 2 0 A maximum Base Power b 1 5 A maximum see note Supplied Ripple 5 maximum 5 maximum Output 2 Voltage 24 VDC 20 0 28 0 VDC 24 VDC Current a 300 mA maximum Base Power b 500 mA maximum see note Supplied Ripple 10 maximum Replacement Terminal Block Phoenix Contact MVSTBW 2 5 4 ST 5 08 BK MVSTBW 2 5 6 ST 5 08 BK Fuse 1 Primary not replaceable Current 2 0 A maximum ee eee KS Environmental Specifications Ambient Operating Temperature 32 F to 131 F 0 C to 55 C Storage Temperature 4 F to 158 F 20 C to 70 C Ambient Humidity 5 to 95 Non condensi
139. words Input Points Required d double word 32 bit word Network Interface dependent Base Power Required 60 mA 5 VDC External Power Required 24 VDC 5 70 mA class 2 Operating Temperature 0 to 60 C 4 to 158 F Storage Temperature 20 to 70 C 32 to 140 F Accuracy vs Temperature 5 ppm C max full scale Relative Humidity 5 to 95 non condensing Environmental Air No corrosive gases permitted Vibration MIL STD 810C 514 2 Shock MIL STD 810C 516 2 Noise Immunity NEMA ICS3 304 Weight 168 g Thermocouple Specifications Typed 190 to 760 C 310 to 1400 F Type E 210 to 1000 C 346 to 1832 F Type K 150 to 1372 C 238 to 2502 F TypeR 65 to 1768 C 149 to 3214 F Input Ranges Type S 65 to 1768 C 149 to 3214 F Type T 230 to 400 C 382 to 752 F TypeB 529 to 1820 C 984 to 3308 F TypeN 70 to 1300 C 94 to 2372 F TypeC 65 to 2320 C 149 to 4208 F Display Resolution 0 1 C or 0 1 F Cold Junction Compensation CJC Part T1F CJC Conversion Time 100 ms per channel Warm Up Time 30 minutes typical 1 C repeatability 0 05 C maximum 0 01 C typical Maximum Inaccuracy 3 C automatic Linearity Error 3 92 Terminator Installation and I O Manual 3rd Edition Chapter 3 I O Wiring and Specifications Wiring amp Dimensions Note
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