DIGITAL CONTROLLER PXH
Contents
1. i O DO4 eel ee i D i ontrol output 1 relay opening closing output i OY e a l Oi aie 7 6 iL COM 6 i O B CLOSE 7 7 e o ii f OREO amp iil l a ce ome O 1 je i O 1 Power supply FG Measurement value input 1 A 26 100 to 240 V AC 50 60 Hz RCJ Module 63 ED 0 A I 0 Ea e V mV DC voltage Resistance Thermo bulb couple DC current Measurement value input Extended Di Do The RCJ module must be connected in case of thermocouple input Remove it for resistance bulb input Valve opening feedback input Al1 Analog input I 100 1 0 Potentiometer DC voltage mV 60 V DC current DC voltage bulb Resistance Thermo couple The RCJ module must be connected in case of thermocouple input Remove it for resistance bulb input Note1 Connection to the transmitter power supply 4 to 20 mA DC ourz 1 7 Transmitter power supply Pv1 Input type code 26 4 to 20 mA DC J Input impedance 2509 External wiring needed 19 INSULATION BLOCK DIAGRAM Internal Circuit Digital output DO 1 2 Measurement value input 1 PV1 Digital output DO 3 Measurement value input 2 PV2 Auxiliary analog Input 1 Ai12. Output Rel Current Current kind cay 4to 20 mA 4to 20 mA g Transmitter Function Used for power valve Re transmission Re transmission supply open close output output output Not fitted Fitted The selection of Function is specified according to the parameter 14 Heating cooling control type 345678 9 10111213 Digit 1 P 2 XH V 0 Digit Description Notes 4 lt Dimension of front face H x W gt 96 x 96 mm 5 lt Number of control loops Function gt 1 loop heating cooling controller lt Measurement value input gt Universal input 1 point Universal input 2 points N 7 lt Auxiliary input gt Not fitted DC voltage 1 point lt Version No gt lt Output gt OUT1 OUT2 3 Current Not fitted 1 Current Current 2 Current SSR SSC drive 3 Current Transmitter supply 5 SSR SSC driver Not fitted A SSR SSC driver Current B SSR SSC driver SSR SSC drive Cc 10 lt Power supply gt 100 to 240 V AC V 11 lt Communication interface gt Not fitted 0 RS 485 R 12 lt Digital input output gt Digital input Digital output Including relay control output x2 4 points Di1 to Di4 2 points Do3 Do4 0 4 points Di1 to Di4 4 points Do1 to Do4 A 9 points Di1 to Di4 Di11 to Di15 9 points Do1 to Do4 Do11 to Do15
3. Valve openings feedback input FB Output 1 Current SSR driver Digital output DO 4 Digital output DO 11 to 15 Basic insulation 1500 V AC Digital input Dl 11 to 15 Functional insulation 500 V AC Transmitter power supply SEBENERE No insulation RS485 A Caution on Safety Before using this product be sure to read its instruction manual in advance Fuji Electric Systems Co Ltd International Sales Div 5 Sales Group Gate City Ohsaki East Tower 11 2 Osaki 1 chome Shinagawa ku Tokyo 141 0032 Japan http www fesys co jp eng Phone 81 3 5435 7280 7281 Fax 81 3 5435 7425 http www fic net jp eng Information in this catalog is subject to change without notice Printed in Japan
4. SPST contact except for Do4 SPDT contact Do4 e Contact capacity 220 V AC 30 V DC 1A Resistive load 100 000 operations rated load Alarm output timer output control out put Do4 Do3 4 Do points max for 2 point measure ment input model e Contact life 3 Function 4 Restriction 5 Others Do4 or Do3 becomes control output when relay is selected as control output Do4 becomes control output for motor ized valve control type 3 3 Analog re transmission output 1 Number of points 2 at max 2 Type Current output 4 to 20 mA DC e Accuracy 0 2 FS e Linearity 0 2 FS e Load resistance 600 Q or less 3 Output contents PV SV MV DV AIM Math operation result MVRB Valve openings TV Totarizer result 4 Restriction The sum of control output current or SSR SSC drive analog re transmission output and transmitter power supply output is 2 points at maximum 3 4 Transmitter power supply output 1 Number of points 1 at max 2 Rating 24 V DC 17 to 30 V DC Maximum cur rent 23 mA with short circuit protec tion 3 Restriction The sum of control output current or SSR SSC drive analog re transmission output and transmitter power supply output is 2 points at maximum 4 Control function 4 1 Controller type 1 Control system e Advanced PID control with Auto tuning 2 Controller template Operation block and O definition can be sele
5. an RETI k 1401 Current Measure M Omre I H output mont i Input O Re trans 1IDepend on Current onditioner mission I AO output or input 1 ey Ao2T output 2 1 poe Tra snitter L Ho SO RET2 I supply Local SV 1 1 Loca sv_ Q x h Valve i i Input 1 Relay output openings padba Close output signal m Relay output l i Open output 1 1 ISTBY 1 i i i 1 i 1 d i ren betadetraicta f Pelee ee SV select i EX MV setting i f SV select SV select 1 sv1 i EXM1 ee ee i select signal 1 SV1 Remote i i i signals SV select 2 toi Sommand cee ee SV7 Relay SN select SV select 3 SV7 l output g EX MV output command No Do EX MV AMY wer aiae Seed ee eee eee ce 4 1 allocation 777r 1 S emani Preset output i 1 Do allocation canbe 4 value PMV 1 i Te fangs prione eters Do15 a Stand by 1 assigned to designation alocanan STevior command j Aem p Sires 1 Di allocation can be q Di allocation 1 l 1 changed with para 4 A M 1 I meters I Manual chargeover command Dot I t Front key A f eee ALM ICS g i i Indicator E fo I i lamp 1 1 OR ofall ___7__ i the Aus TFL ALM Valve openings feedback input is used for the type of 5th digit D in CODE SYMBOLS 10 Template N Measure ment value input 1 Measure ment value input 2 Aux input Remote SV input Remote command Remote acknowledge Manual command EX MV outpu
6. command Leommand 4 y i Da allocation canbe i to 1 Preset output i i parameters I Do15 1 value PMV1 1 Higher priority is I No I L Stand by l Al I assigned to designation y hi allocation ISTBY or command ee i es i arm I Set Dak e 7 Dj allocation can be 1 Di allocation i m 1 i changed with para 1 AM ch i 1LED display allocation 4 meters 1 chargeover gt r 7 4 1 Since the R ACK 1 Manual N E CATROS r L Do1 1 value is INH at the b to s 1 time of delivery set l 1 ALM1 to5 Indicator 1 itto ENA before use et lamp ORofal ___ 1 the ALMs aK yaneleicmommes 1 loop SV selectable PID controller without math function ey Re trans mission zy ONIAOTT output 1 i t type O OH RET1 Current Mv 1 output or Measure Re trans i pia men iti PV mission value Input Conditioner Q Ao2T output 2 Burar input 1 PID S operation O RET2 Depend on output or 1 OTYP Transmitter i setting supply I Control 1 Relay i r output l EX MV setting Control 1 EXM1 output i 1 Manual MV setting i 1 SV select SV select svi f signal 1 i SV select 1 ISV1 i ALM2 SV select to a signal 2 i SV select 2 avi ALM3 Relay SV select output signal 3 i SV select 3 SV7 EX MV ALM4 Do EX MV BCMV output command No output command allocation command Preset output 1 Do allocation can be value PMV1 i Pi ae ea No Stand by 1 assigned to designation i allocation ISTBY or command i of IOTYEL
7. e Thermocouple 0 1 FS 1digitt1 C or 1 5 C whichever is larger Thermocouple B 0 C to 400 C range 5 FS 1digitt1 C Thermocouple R 0 C to 500 C range 1 FS 1digitt1 C e Resistance bulb input 0 1 FS 1digit or 0 25 C whichever is larger e Voltage input current input 0 1 FS 1digit 5 Input sampling cycle 50 ms 6 Input impedance e Thermocouple voltage input mV 1 MQ or more e Voltage input V 1MQ e Current input 250 Q 7 Influence of source resistance Permissible wiring resistance e Thermocouple voltage input mV 0 1 FS per 100 Q e Voltage input V 0 1 FS per 500 Q e Resistance bulb input 10 Q or less per cable 8 Permissible input voltage e Voltage V input 35 V 10 V DC e Current input 25 mA DC e Thermocouple Resistance bulb Voltage mV input 5 V DC 9 Noise reduction ratio e Normal mode 40 dB 50 60 Hz Common mode 120 dB 50 60 Hz 10 Input value correction function Input conditioner e User adjustment 50 FS both for zero point and span point e Square root extractor OFF or cut point from 0 0 to 125 0 e First order lag filter 0 0 to 900 0 sec Linearizer 16 straight lines 2 2 Auxiliary analog input Option 1 Number of inputs 1 2 Input signal 1 DC voltage 1 to5 VDC 0to5VDC 0to 10 VDC e Input accuracy 0 2 FS e Sampling cycle 100 ms e Input impedance 1 MQ e Influence of source resistance 0 2 FS per 500 Q e Permiss
8. 140 for Di function for switching Flow rate compensation with temperature and pressure value operation 2 Ai1 k01 k02 M fev PV2 X k03 k04 PV1 Differential pressure flow rate value k01 Pressure compensation constant 1 k04 Temperature compensation constant 2 PV2 Fluid temperature value k03 Temperature compensation constant 1 Ai1 Differential pressure value k02 Pressure compensation constant 2 k05 Square root extractor cut point Input data value 0 0 to 100000 100 000 Flow rate compensation with temperature and pressure value operation without square root extraction Ai1 X k01 k02 PV2 X k03 k04 All the inputs and constants are of the same specifications as mathematical expression 20 M1 PV1 H selector 2 points with coefficient M1 max PV1 X k01 k02 PV2 X k03 k04 H selector 2 points with coefficient M1 min PV1 X k01 k02 PV2 X k03 k04 H selector 3 points with coefficient M1 max PV1 X k01 k02 PV2 X k03 k04 Ai X k05 k06 L selector 3 points with coefficient M1 min PV1 X k01 k02 PV2 X k03 k04 Ai X k05 k06 Input switching 2 points with coefficient M1 PV1 X k02 k03 when k01 gt PV1 X k02 k03 M1 PV2 X k04 k05 when k01 lt PV1 X k02 k03 H L selector 2 points with Di switching function Expression 27 or 28 is use
9. ALM1 to 5 I Li l I 1 OR ofall ___ __ 1 the ALMs r 1 ALM Valve openings feedback input is used for the type of 5th digit D in CODE SYMBOLS 31 Result of calculation AIM Re trans O ier mission a aa Measurement value input 1 PV1 Measurement value input 2 FB Ai1 Math module Valve openings gt AiM Local SV feedback signal Aux input co SV select SV select I signal 1 Cbi1 SV select 1 vit SV select I i signal 2 SV select 2 x SV select n signal 3 1 SV select 3 SV7 EX MV EX MV output Git i command command i I No allocation changed with para q meters 1 MV EX MV setting EXM1 Remote Preset output value PMV 1 Stand by STBY or command a i Di allocation AM Manual chargeover command 7 Front key A during MAI operation only PV Ao1T output 1 1 Output type So No CRETI setting tam He A01 MVRB l O Depend ont AiM Re trans OTYP PV mission setting 1A02 Q Ao2T output 2 SV I I ORET2 RET2 1 I output 1 MV1 7 al 1 1 i ALMI f r gt Do1 I I I ALM2 F Do2 l l ALM3 Pareles Do3 el I No ARDAS 1 allocation r gt Do11 I Ks Do allocation can be 1 to changed with parame
10. B 13 lt Additional specifications gt Not fitted 0 1 2 for the 6th digit and B for the 12th digit cannot be specified at the same time 2 One digital output Do4 or 2 points Do3 and 4 is occupied when relay is allocated as control output 3 Explanation of the 9th digit of type code and ou Terminal Output kind put terminal function is below SSR SSC driver Current 4 to 20 mA Current 4 to 20 mA SSR SSC driver Function a Control output or Re transmission output Control output Control output or Re transmission output Control output Transmitter power supply The selection of Function is specified according to the parameter Not fitted Fitted 19 PXH9 MEASUREMENT RANGE TABLE 1 Unit of temperature C Measurement range C Reading setting Input type Max Min resolution C Resistance bulb Pt100Q 150 to 850 0 to 150 0 01 Thermocouple J 0 to 1000 0 to 400 0 1 K 0 to 1200 0 to 400 0 1 R 0 to 1600 0 to 1600 0 1 B 0 to 1800 0 to 1800 0 1 S 0 to 1600 0 to 1600 0 1 T 200 to 400 200 to 200 0 1 E 200 to 800 0 to 800 0 1 PR40 20 0 to 1800 0 to 1800 0 1 N 0 to 1300 0 to 1300 0 1 PL II 0 to 1300 0 to 1300 0 1 WRe5 26 0 to 2300 0 to 2300 0 1 DC voltage 1to5V Oto5V Oto 10V sion g o vam 0 to 50 mV is
11. Do allocation can be to r Ho ANNI i f i I changed with parameters Do15 i e i 1 i Al 1 Higher priority is I EXMV CNO3 a GRR Sn a FL_O I l arm assigned to designation h select Parameter 1 FF signal select 1 1 1 of OTYP for the output 1 setting 1 CONST4 i i to Do4 J N ay FFv1 i F 1 H FF i L Z met i tt To i fe 7 forward i 1 ALM1 to5 to FF select CN04 422 I i f L Dos J i Parameter i I OR of all setting i t i the ALMs L ALM j i I 1 ou O ee i i FF INH C E 42 2 552 2 j command Parameter i i setting i Manual MV setting i 1 1 pot e eo npg eee i 1 l 1 L Di allocation Remote I R I acknowledge 1 f emote I t i i acknowledge Di1 R ACK l H Manual 1 A M chargeover 1 i command i2 i SMe PERAR EA DoR i i CD w H allocation l i EX MV i l output Cis i EX MV j command 1 Preset output 1 value PMV 1 i I No Stand by Di11 allocation STBY or command I I I 1 1 1 Di allocation can be I changed with para 1 I meters 1 1 Since the R ACK 1 1 valueisINH atthe 1I 1 time of delivery set I 1 it to ENA before use l Di allocation Current output or SSR driver output Current output or Transmitter supply Relay output Control output Relay output Do Indicator lamp Template N 1 loop motorized valve controller with math fu
12. Stand by RET2 La Heating Depend ont output OTYP setting Cooling output No allocation o allocation can be hanged with para 1 meters I Higher priority is assigned to designation of OTYP for the output 1 to Do3 and Do4 I ALM1 to 4 OR of all the ALMs a Re trans PV mission miss i r E A en output 1 Output typet 2 CRETE Jao MV Re trans PV mission i output 2 sv Ao2T pi I 1A02 PID RET2 Pesan a operation Heati Heating I perati leating output OTYP T0 3 i setting i Cooling 1 I output 1 EX MV setting 1 DO4 EXM1 H 1 Manual MV setting EX MV output command Cooling output Preset output value PMV1 Preset output value PMC1 Stand by STBY or Di allocation command r I r i ALM1 f r gt Do1 i I DOme I AM3 p L I am j 1 l No Lis I allocation 1 D011 Do allocation can be I changed with parameters to 1 Higher priority is Alarm assigned to designation 1 D015 1 Of OTYP for the output 1 1 to Do3 and Dod J s ILED display allocation ere a J I i ALM1 to 4 gt 1 OR of all l the ALMs Current output or SSR driver output Current output or Transmitter supply or SSR driver output Relay output Co
13. V DC 1 A Inductive load e Contact life 100 000 operations rated load 2 SSR SSC driver output Voltage pulse e Rating 12 V DC 10 to 15 V DC Maximum current 20 mA provided with protection against short circuit e Load resistance 600 Q or more 3 Current output 4 to 20 mA DC e Accuracy 0 2 FS e Linearity 0 2 FS e Load resistance 600 Q or less 4 Motorized valve operation pulse output OPEN CLOSE output e Contact structure SPST contact x 2 with interlock circuit e Contact capacity 220 VAC 30VDC 1A Resistive load 220 VAC 30 VDC 0 3 A Inductive load e Contact life 100 000 times or more rated load 3 1 2 Control output 2 Cooling output 1 Number of points 1 2 Type Select one from 1 to 3 as shown below 1 Relay contact output e Contact structure SPST contact Do3 used e Contact capacity 220 V AC 30 V DC 1 A Resistive load 220 V AC 30 V DC 0 3 A Inductive load e Contact life 100 000 operations rated load 2 SSR SSC driver output Voltage pulse e Rating 12 V DC 10 to 15 V DC Maximum current 20 mA provided with protection against short circuit e Load resistance 600 Q or more 3 Current output 4 to 20 mA DC e Accuracy 0 2 FS e Linearity 0 2 FS e Load resistance 600 Q or less 3 2 Digital output Do 1 Number of points Standard 2 Do3 4 Expansion Maximum 7 9 points in total at max 2 Specifications e Contact structure
14. allowed DC current 4to 20 mA 0 to 20 mA Motorized valve Potentiometer 100 to 10 kQ 1 1000 opening feedback digit 2 Unit of temperature F Measurement range F Reading setting Input type H Max Min resolution F Resistance bulb Pt100Q 238 to 1562 32 to 302 0 01 Thermocouple J 32 to 1832 32 to 752 0 1 K 32 to 2192 32 to 752 0 1 R 32 to 932 32 to 932 0 1 B 32 to 3272 32 to 3272 0 1 S 32 to 2912 32 to 2912 0 1 T 328 to 752 328 to 392 0 1 E 328 to 1472 32 to 1472 0 1 PR40 20 32 to 3272 32 to 3272 0 1 N 32 to 2372 32 to 2372 0 1 PL II 32 to 2372 32 to 2372 0 1 WRe5 26 32 to 4172 32 to 4172 0 1 DC voltage 1 to 5V DC 0 to 5V DC 0 to 10V DC 0 to 10mV DC 19999 to 99999 1 10000 0 to 50mV DC Range where scaling is allowed digit Current 4 to 20mA DC 0 to 20mA DC Motorized valve Potentiometer 100 to 10 kQ 1 1000 opening feedback digit LIST OF MATH FUNCTIONS CALC setting Name of operation Arithmetic expression No math operation M1 PV1 input Mathematical expression 1 Flow rate compensation with temperature and pressure 4 2 m 7 Ait k02 k04 M1 k01X VPV1X AA X U KOE PV1 Flow rate differential pressure PV2 Temperature Ai1 Pressure Mathematical expression 2 Flow rate compensation with temperature and pressure k03 PV2 k05 PV1 Flow rate differential pressure PV2
15. 2 2 8 mm 0 2 2 5 ES H J Gi E S G O S O S S S G m mam D 5 Lest Fi F2 F3 A M DISP 8 SEL gt a v J H 0 l PXH 1 i Y Waterproof alle totes Terminal cover packing Panel Available optionally PC Loader Interface 49 60 61 72 1 12 U O u 37 48 13 24 25 36 i D000 I in D000 PANEL CUTOUT 0 8 0 92 elalsielsiciisicieisiclo Qaeseqlsesceee Ceccecca CSeSleSliececee COOCOS OCOeos 116 MIN Terminal screw M3 RCJ Module Remove it for resistance bulb input RCJ Module for PV2 For PV2 fitted model only Remove it for resistance bulb input 100 MIN In some models a terminal block is not mounted to terminals those are not being used terminal Nos 37 to 60 A dummy cover is mounted instead 18 TERMINAL ALLOCATION Output 2 Communication I ob DP o Current SSR SSC output driver output SSR SSC driver output Current output Transmitter power supply Note 1 4 45 16 SG
16. AC 11 lt Communication interface gt Not fitted 0 RS 485 R 12 lt Digital input output gt Digital input Digital output Including relay control output 12 4 points Di1 to Di4 2 points Do3 Do4 0 4 points Di1 to Di4 4 points Do1 to Do4 A 9 points Di1 to Di4 Di11 to Di15 9 points Do1 to Do4 Do11 to Do15 i B 13 lt Additional specifications gt Not fitted 0 1 2 for the 6th digit and B for the 12th digit cannot be specified at the same time 2 One digital output Do4 is occupied when relay is allocated as control output 3 Explanation of the 9th digit of type code and output terminal function is below Terminal Do OUT1 OUT2 Output Rela Current SSR SSC Current Kind y 4 to 20 mA driver 4 to 20 mA Transmitter Control output een or Re transmission ai or __ __ Control output supply zed Re transmission output Digital output output Function Not fitted Fitted The selection of Function is specified according to the parameter Optional Items Contents Model Notes Terminal cover ZZP PXR1 B230 Two pieces are necessary per 1 unit PC loader interface cable ZZP PXH1 TK4H4563 For RS232C Interface PXH9 Motorized valve control type 12345678 910111213 Digit P x H 9 1 M Jo Digit Description Notes gi iO CETE 4 lt Dimension o
17. C to 60 C 3 Ambient humidity for use storage 90 RH or less non condensing 4 Warm up time 15 min or longer 12 Structure 1 Mounting method Panel flush mounting 2 External terminal M3 screw terminal 3 Case e Material Plastic Flame resistant UL94V 0 e Color Gray 4 Protection e Faceplate EC IP66 NEMA 4xX equivalent When mounted on panel with our genu ine packing Waterproof feature unavail able in side by side mounting e Body EC IP20 Provided with slits on top and bottom faces e Terminal section EC IPOO Terminal cover can be mounted option 5 External dimension 96 W x 96 H x 81 5 D mm D is the depth from the front face of the panel not including terminal cover 6 Mass Approx 500 g 13 Range of delivery e Controller ae 1 piece e Instruction manual __ 1 piece e Mounting bracket naun 2 pieces e Waterproof packing __ 1 piece e Unit name plate aaan 1 piece e Terminating resistor 1 piece only for the model with communication func tion 14 Relative documents and tools e User s manual e Communication function manual e PC loader software e PC loader software manual You can download above documents and tools from the website Fuji Instrumentation and control of Fuji Electric Systems Co Ltd or ask our customer service 15 PC Loader Software 1 System requirements e PC DoS V PC PC AT compatible
18. FO e Front runners DIGITAL CONTROLLER PXH ee DATA SHEET PXH9 is a 96 x 96 mm high performance digital controller that assures high speed and high accuracy control With its abundant and flexible input output points and pow erful math function it can be used for a wide range of appli cations including not only temperature control but also pro cess control of pressure flow rate etc FEATURES 1 High speed and high accuracy control e High speed control in sampling cycle of 50 ms e Highly accurate input indication of 0 1 FS e Measurement resolution of 0 01 C Resistance bulb input 2 Multitude of input output points including options e Universal measurement input 2 points Thermocouple Resistance bulb Voltage Current e Auxiliary analog input 1 point DC voltage Potentiometer e Analog output 2 points e Digital input 9 points e Digital output 9 points e Transmitter power supply 3 Substantial communication function e PC Loader interface RS232C equipped as stan dard e RS485 Modbus RTU communication function Option 4 Strong math function e Applicable to various applications such as correc tion processing and input switching based on mathematical calculations between multiple in puts Refer to the list of expressions on page 17 for the type of mathematical expressions 5 Complex setting achieved by easy operation e Equipped with control template function that al lows input output according to control ty
19. PC e Operation System Confirmed on Windows 2000 English Windows XP English e RAM 128MB or more e HDD capacity Empty area 100 MB or more e CD ROM drive Required e Display resolution 1024 x 768 dots or more 2 Connection to the PXH controller e Via PC Loader interface on bottom face of the main unit Optional dedicated cable is required or Via RS485 communication RS485 function is neces sary for PXH HO _ Ran BLOCK DIAGRAMS CONTROLLER TEMPLATES 1 loop basic PID controller with math function Re trans Current Measure Result of I ouput or ment calculation Rex 1 river value PV erans output input 1 AiM mission j Ao2T output 2 Current Measure output or men i valee Local SV aria input 2 Aux input condiener pala i iah Remote 1 I i SV input EX MY selting Control output Remote pry ee One i command ManualMVsetting gt Jt Le 1 i r eee i 1 _Diallocation 1 pocccco Remote l Remote m acknowledge acknowledge R ACK ee Manual SMV eect eeeceen eu AM chargeover _ Rela
20. Temperature Ai1 Pressure ot ares M1 k01 X PV1 X me AKOR koI Mathematical expression 3 Flow rate compensation with temperature and pressure Ai1 k02 x k04 k03 PV2 k05 PV1 Flow rate differential pressure PV2 Temperature Ai1 Pressure M1 k01 x PV1 x Mathematical expression 4 1 k01 X k02 X PV1 k03 X PV2 k04 X Ai1 k05 kO6 X k07 X PV1 k08 X PV2 k09 X Ai1 k10 Mathematical expression 5 _ k01 X k02 X PV1 k03 X k04 X PV2 k05 X k06 X Ai1 k07 k08 i k09 X k10 X PV1 k11 X k12 X PV2 k13 X k14 X Ail k15 k16 Mathematical expression 6 M1 k01 X PV1 X k02 X PV2 k03 X Ai1 k04 X Ai1 k05 H selector 2 points M1 Max PV1 PV2 PV1 or PV2 whichever is larger is selected L selector 2 points M1 Min PV1 PV2 PV1 or PV2 whichever is smaller is selected H selector 3 points M1 Max PV1 PV2 Ai1 PV1 PV2 or Ai1 whichever is largest is selected L selector 3 points M1 Min PV1 PV2 Ai1 PV1 PV2 or Ai1 whichever is smallest is selected Input switching 2 points M1 PV1 when PV1 lt k01 M1 PV2 when PV1 gt k01 H L selector 2 points with Di switching function Expression 7 or 8 is used by Di switching Specify 140 for Di function for switching H L selector 3 points with Di switching function Expression 9 or 10 is used by Di switching Specify
21. and by STBY or Di allocation command Heating I output Depend ont OTYP setting pos DO allocation ALM1 ALM2 ALM3 ALM4 F EE E No allocation I s Do allocationcanbe I changed with para 1 1 meters 1 1 Higher priority is I 1 assigned to designation of OTYP for the output 1 to Do3 and Do4 1 ALM1 to 4 OR of all the ALMs Input Cond SV select 1 SV select 2 SV select 3 EX MV command Dj allocation can be 1 changed with para Li I Li No H allocation l I l 1 meters I Local SV Re trans Pv mission y i ji sv N gem output 1 Output type O RET1 gt _ Setting My Re trans l PV mission Ao2T output 2 sv I RET2 i a ing IDepend ont nperation Heating Heating 1 OTYP I Sy output Y Des T 4 setting l Manual MV setting EX MV output command Cooling output Preset output value PMV1 Preset output value PMC1 Di allocation STBY or Stand by command Cooling 1 output output 1 No Eg gt allocation I Do11 Do allocation can
22. ation be I changed with para 4 I meters Manual eee seo 4 command r ALM1to5 Indicator lamp OR ofall the ALMs Template N IEJ 1 loop basic PID controller without math function Re trans Pv mission QK A01T output 1 Output type i SV OH RETI settin Current 9 RET A01 output or SSR driver Measure Re trans output e Input Conditioner mission value 1 NPE ones Ao2T output 2 Current i output or Local SV sv OTYP Transmitter i setting supply Remote SV a j Control Relay Remote iti 1 output 1 output SV input Input Conditioner RSV1 a EX MV setting 1 Control I EXM1 M output Remote command Remote AE a aa a SAA command Manual MY setting E JE O LR OD 4 eoeeeSa Remote fa Oa 1 Remote I acknowledge L DH J _ RAUR Por eg Le p Manual a i A lyja ee ee ee YM CIBIJBONET I _ s I Relay command SMV A aae e ae a AMi Heben Do4 output No i BAPA l I Do allocation l No a es EX MV E EX MV output command 1 1 allocation Do11 output A eee ee er 7
23. be to hanged with parameters Higher priority is J Do15 signed to designation I f OTYP for the output o Do3 and Do4 D display allocation ALMIt04 pba to L Do5 1 Nhe a OR ofall i the ALMs p7 L ALM Current output or SSR driver output Current output or Transmitter supply or SSR driver output Relay output Control output Relay output Control output Relay output Do Indicator lamp 1 loop SV selectable heating cooling controller without math function Current output or SSR driver output Current output Transmitter supply or SSR driver output Relay output Control output Relay output Control output Relay output Do Indicator lamp CODE SYMBOLS Basic type 12345678 910111213 Digit PHa LM Jo Digit Description Notes 4 lt Dimension of front face H x W gt 96 x 96 mm 5 lt Number of control loops Function gt 1 loop basic controller 6 lt Measurement value input gt Universal input 1 point Universal input 2 points x 7 lt Auxiliary input gt Not fitted DC voltage 1 point 8 lt Version No gt 9 lt Output gt OUT1 OUT2 3 Current Not fitted Current Current Current Transmitter supply SSR SSC driver Not fitted SSR SSC driver Current 10 lt Power supply gt 100 to 240 V
24. cted by param eter setting from available types according to targets of con trol e Basic type 1 loop basic PID controller with math function 1 loop SV selectable PID controller with math function 1 loop basic PID controller without math function 1 loop SV selectable PID controller without math function 1 loop input selectable PID controller with math function e Motorized valve control type With or without valve openings feedback input is select able loop motorized valve controller with math function loop SV selectable motorized valve controller with math function loop motorized valve controller without math function oop SV selectable motorized valve controller without math function e Heating cooling control type loop heating cooling controller with math function loop SV selectable heating cooling controller with math function loop heating cooling controller without math function loop SV selectable heating cooling controller without math function Note The control template can only be changed within each of basic type motorized valve control type and heating cool ing control type controllers PXH9 4 2 Control parameter 4 2 1 Basic type motorized valve control type e Proportional band P 0 0 to 999 9 ON OFF 2 position operation at P 0 e Integral time I 0 0 to 3200 0 sec Integral operation OFF at 0 e Derivative time D 0 0 to 999 9 sec Derivative operati
25. d by Di switching Specify 140 for Di function for switching H L selector 3 points with Di switching function Expression 29 or 30 is used by Di switching Specify 140 for Di function for switching Input switching 2 points with coefficient and interpolation function When PV1 lt k05 M1 PV1 X k01 k02 When PV2 lt k06 M1 PV2 X k03 k04 When PV1 gt k05 and PV2 lt k06 Interpolation shown below is executed EE a PVI X101 k02 k05 k05 LEVI X KOLO 05 M1 1 KOS KOR X PV1 X k01 k02 k05 E X PV2 X k03 k04 note k05 Input switching upper value k06 Input switching lower value Calorie calculation M1 PV1 X k01 k02 PV2 X k03 k04 X Ai1 X k05 k06 1 Square root extraction cut point can be set with k06 2 Square root extraction cut point can be set with k07 17 PXH9 OUTLINE DIAGRAM Unit mm MTG bracket 94 5 With terminal cover 10 79 5 96 2 l J i gan 7 sey R CA CW en e Dor Doz os os E A i PV nonoo mo 3 LUDE ATE 8 00 s O O D 0 o 6
26. f front face H x W gt 96 x 96 mm 9 5 lt Number of control loops Function gt 1 loop motorized valve controller with valve openings feedback input D 1 loop motorized valve controller without valve openings feedback input S 6 lt Measurement value input gt Universal input 1 point Universal input 2 points 1 N 7 lt Auxiliary input gt Not fitted DC voltage 1 point lt Version No gt lt Output gt OUT1 OUT2 2 Current Not fitted Current Current Current Transmitter supply 10 lt Power supply gt 100 to 240 V AC 11 lt Communication interface gt Not fitted 0 RS 485 R 12 lt Digital input output gt Digital input Digital output Including valve control output 3 4 points Di1 to Di4 2 points Do3 Do4 4 points Di1 to Di4 4 points Do1 to Do4 9 points Di1 to Di4 Di11 to Di15 9 points Do1 to Do4 Do11 to Do15 uro 13 lt Additional specifications gt Not fitted 0 1 Universal input 2 points and B for the 12th digit cannot be specified at the same time Select universal input 2 points when external setting input RSV is required 2 D for the 5th digit and 1 for the 7th digit cannot be specified at the same time 3 Do4 is used as control output If 2 or 3 Do points are required for event output specify code A and if 4 to 8 Do points are required specify code B Terminal Do4 OUT1 OUT2
27. for the i Di allocation can be 1 Di allocation i T changed with para LED displ Il P I isplay allocation meters Manual r command 1 ALM1 to5 Indicator lamp OR of all the ALMs HO _ a Template N 1 loop input selectable PID controller with math function Measure ment Result of value calculation inpu T AIM Re trans AiM o mission p Measure Math PV Ao1T output 1 Output type ment dul O setting I value mea A SVG RET1 i7 4 input 2 I 1A01 PV select MV I OUT1 Aux input CONST1 3 AiM Re trans i ission o Py iKozt mission 1 agi i O PID L Wo outputs ere 140 gt OUT HO operation sv O RET2 on I 2 Jo sv O I OTYP I i g i MV setting f i o 1 DO 4 Bed oo cura on Parameter SV i f i i 1 i i key operation Remote tT et 1 Remote command R i istevf command UAS 1 F es ei K 1 f Parameter i 1 1 i RSV select i i PV select CN01 CONST2 i l 1 i te i ft dt Parameter Ho i setting 1 fo i 1 i RSV select CN02 5 by latetatenetaieietetanetetetate 4 FL_O f EXMV select I EXW setting _ ICONSTs f 1 i NG 1 EXM1 o i l I allocation H 4 Do11 o 1 l l 1
28. ible input voltage 35 V 10 V DC e Noise reduction ratio e Normal mode 40 dB 50 60 Hz or more Common mode 120 dB 50 60 Hz or more 2 Valve opening feedback signal Potentiometer e Resistance range 100 Q ro 10 kQ 3 wire e Resolution 0 1 FS e Input accuracy 1 0 FS 3 Input value correction function e User adjustment 50 FS both for zero point and span point e Square root extractor OFF or cut point from 0 0 to 125 0 e First order lag filter 0 0 to 900 0 sec e Linearizer 16 straight lines 2 3 Digital input DI 1 Number of points Standard 4 Di1 to 4 Expansion 5 9 points in total at max 2 Specifications Contact or transistor input 3 Contact capacity 12 V DC Approx 2 mA per point 4 Operation pulse width 200 ms or more 5 Function Control mode changeover EX MV selec tion SV changeover Control standby Auto tuning start Timer start Alarm latch cancel 2 4 Math function 1 Kind of formula 24 kinds selected by the parameter set ting see page 17 2 Operation parameter Analog input PV1 PV2 Ai1 Constant K1 to K16 3 Data type Engineering unit with floating point 3 Output section 3 1 Control output 3 1 1 Control output 1 1 Number of points 1 2 Type Select one from 1 to 4 as shown below 1 Relay contact output e Contact structure SPDT contact Do4 used e Contact capacity 220 V AC 30 V DC 3 A Resistive load 220 V AC 30
29. nce 500 m max Total length of connection 7 Other functions 7 1 Parameter recipe 1 Number of recipe groups 7 sets 2 Number of parameters which can be registered 10 parameters 3 Method of changing recipe groups Synchronized with the change of PID groups 7 2 Totalizer 1 Totalized value 1999999 to 9999999 7 digits 2 Totalize source PV1 PV2 Ail AiM MATH result 3 Totalize resolution XXX XXXX to XXXXXXX 4 Status RUN HOLD RESET 5 Totalized value output via Re transmission 6 Alarm Batch output 2 points via Do1 to Do4 7 Totalized data backup 30 seconds interval to EEPROM 8 Operation display section 8 1 Parameter setting e Digital setting by UP DOWN key e Key lock function provided e User function key 3 keys provided 8 2 Display 1 Type LED 2 Display contents Measurement value display 7 segments 5 digits red character height 20 mm Setting display 7 segments 5 digits orange character height 13 mm Auxiliary display 7 segments 2 digits orange character height 12 mm Bar graph 12 segments orange Status display indicator lamp Standby control mode output alarm 9 Processing at power failure Memory protection Non volatile memory 10 Self diagnosis e System Program error monitoring performed by watchdog timer 11 Operation and storage conditions 1 Ambient operating temperature 10 C to 50 C 2 Storage temperature 20
30. nction AM Re trans O mission Preset output value PMV1 PV I Ao1T output 1 So o 1 Result of Misasurement calculation value input 1 Conditioner AiM Measurement Math value input 2 Input Remote SV Conditioner module Local SV input Valve openings t feedback Conditioner RSV1 ees A CRSV Aux input Rem t p Remote command emote REM command Parameter setting or key operation Diallocation R gt emote I acknowledge bi RACK Sposa eons eo Manual Diz smv command I i No EX MV 1 allocation ti I EXMV output Cis I command command I a 1 I No H allocation Template N 1 Di allocation can be 1 changed with para I meters 1 Since the R ACK 1 value is INH at the I time of delivery set I it to ENA before use STBY or Di allocation Manual command Front key A 7 during MAI operation only MV 1 MVRB I 1 I il I I AiM Re trans Cae PV mission 2 IA Ao2T output 2 setting sv 1 I a O RET2 gt 4 RET2 i i O MVRB O Control output 1 ALM1 ALM2 ALM3 OPEN No H I allocation 1 Do allocation canbe I changed with I 1 parameters 1 1 Higher priority is 1 assigned to designation 4 of OTYP for the itput to Di Alarm 1
31. nsfer Auto Manual Remote With balanceless bumpless transfer 5 Alarm function 5 1 Number of alarm points e 8 points for setting 5 2 Type of alarm e PV value upper lower limit absolute deviation band PV variation ratio SV upper lower limit main unit error lt Optional operation gt e Hold standby function e Operation latching e Excitation non excitation e Operation delay 0 to 9999 sec 0 to 9999 min 5 3 Alarm output e Output to DO1 to DO4 and DO11 to DO15 Allocation change available 6 Communication function 6 1 PC Loader interface 1 Number of points 1 2 Physical specifications EIA RS232C 3 Protocol Modbus RTU 4 Communication method 3 wire half duplex bit serial asynchro nous system 5 Data type Data length 8 bits Parity Odd Even None 6 Communication speed 9600 bps 19200 bps 38400 bps Connected with miniature jack on bottom face of the main unit 2 5 mm dia 3 pole Special cable is prepared as option 7 Connector 6 2 RS 485 interface option 1 Number of points 1 2 Physical specifications EIA RS485 3 Protocol Modbus RTU 4 Communication method 2 wire half duplex bit serial asynchro nous system 5 Data type Data length 8 bits Parity Odd Even None 6 Communication speed 9600 bps 19200 bps 38400 bps 7 Connection topology Multi drop Up to 32 units can be con nected including master device 8 Communication dista
32. ntrol output Relay output Control output Relay output Do Indicator lamp 1 loop SV selectable heating cooling controller with math function Current output or SSR driver output Current output or Transmitter supply or SSR driver output Relay output Control output Relay output Control output Relay output Do Indicator lamp HO _ Ra 12 Template N Measure 53 PV Ao1T SVG Re trans mission 1 loop heating cooling controller without math function t tas value Input Conditioner input 1 Local SV R Remote SV t eae SV input Input Conditioner IRSV1 Remote _ command Parameter setting or key operation Remote acknowledge Manual command C2 No allocation PXMY EX MV i output command 7 command No allocation Template N Measure ment value input 1 SV select signal 1 SV select signal 2 SV select signal 3 EX MV output command 1 changed with para 1 meters I Since the R ACK I value is INH at the 1 time of delivery set 1 it to ENA before use I I I I I lx Di allocation can be 1I I I I I I I 54 ner PID operation EX MV setting J EXM1 Manual MV setting Cooling output Preset output value PMV 1 Preset output value PMC1 St
33. on OFF atD 0 e Anti reset windup 0 to 100 of measurement range e Proportion cycle 1 to 150 sec For SSR SSC drive or relay output only e Hysteresis width 50 of measurement range for ON OFF operation only e Control cycle 50 ms Number of SV and PID groups 7 sets e Method of changing PID groups Selected by parameter SV reference PV reference 4 2 2 Heating cooling control type e Proportional band on heating side P 0 0 to 999 9 e Integral time on heating side I 0 0 to 3200 0 sec Integral operation OFF atl 0 e Derivative time on heating side D 0 0 to 999 9 sec Derivative operation OFF atD 0 e Proportional band on cooling side Pc 0 0 to 999 9 e Integral time on cooling side Ic 0 0 to 3200 0 sec Integral operation OFF at Ic 0 e Derivative time on cooling side Dc 0 0 to 999 9 sec Derivative operation OFF at Dc 0 e Anti reset windup 0 to 100 of measurement range e Proportion cycle 1 to 150 sec For SSR SSC drive or relay output only e Hysteresis width 50 of measurement range for ON OFF operation only e Control cycle 50 ms e Number of SV and PID groups 7 sets e Method of changing PID groups Selected by parameter SV reference PV reference 4 3 Control mode 1 Type of mode Auto Manual Remote 2 Changeover Available via key Digital input and Com munication Auto lt Manual With balanceless bumpless transfer Auto Manual Remote With balance bumpless tra
34. pe and automatic allocation of calculation blocks 6 Totalizer function e Input is selectable from any of measurements or a result of math operation e Seven digit total display e Batch control outputs 7 Excellent user friendliness e Multi function large LED display with the high level of visibility e Provision of three function keys whose function allocation can be changed e IP66 waterproof front face NEMA 4X e Compact size with the depth of only 81 5 mm E Fuji Electric Systems Co Ltd SPECIFICATIONS 1 General specifications 1 Power supply voltage 100 V 15 to 240 V 10 AC 50 60 Hz 2 Power consumption 15 VA or less 100 V AC 20 VA or less 220 V AC 3 Insulation resistance 20 MQ or more 500 V DC 4 Withstand voltage Power supply amp All terminals 1500 V AC for 1 minute Relay output All terminals 1500 V AC for 1 minute Others 500 V AC for 1 minute 5 Applicable standard UL C UL CE Mark EDS11 157b Date Fab 26 2010 PXH9 2 Input section 2 1 Measurement value input 1 Number of inputs 1 or 2 Option 2 Input signal type Thermocouple J K R B S T E PR40 20 N PL ll WRe5 26 Resistance bulb Pt100Q 3 wire Voltage 0 to 10 mV DC 0 to 50 mV DC 1to5VDC 0to5VDC 0to 10 VDC Current 4 to 20 mA DC 0 to 20 mA DC 3 Measurement range Refer to the measurement range table page 16 4 Input indication accuracy Ambient temperature 23 C
35. t command Template N Measure ment value input 1 Measure value input 2 SV select L signal 1 Di1 SV select z signal 2 Di2 SV select i signal 3 Di3 EXMV D output command Di11 to Di15 Input Conditioner Input abeh Parameter setting or key operation My L Input Aux input Ait 50 Result of calculation Local SV Remote SV gt RSV1 Remote command Remote acknowledge SMV No allocation EX MV command No allocation Dj allocation can be changed with para 1 meters 1 Since the R ACK value is INH at the time of delivery set it to ENA before use 51 Result of calculation TAIM Math module Local SV Input Diallocation SV select r sv1 SV select 1 i SV1 H to SV select 2 1 SV7 i SV select 3 SV7 1 EXMV __ I command I 1 1 No allocation I Di allocation can be changed with para 1 meters P A o 1 loop heating cooling controller with math function Re trans mission PID operation EX MV setting EXM1 Manual MV setting EX MV output command Ao2T RET1 Re trans g mission output 2 I Preset output value PMV 1 Heating Cooling output Preset output value PMC1 STBY or Di allocation Ci
36. ters q Do15 Higher priority is 1 assigned to designation 1 of OTYP for the output to Do4 Alarm Llamm ILED display allocation ALM1 to 5 OR of all the ALMs ee ae Valve openings feedback input is used for the type of 5th digit D in CODE SYMBOLS Current output Current output or Transmitter supply Relay output Close output Relay output Open output Relay output Do Indicator lamp 1 loop SV selectable motorized valve controller with math function Current output Current output or Transmitter supply Relay output Close output Relay output Open output Relay output Do Indicator lamp HO _ Rn UEMA EIGANDAKES 1 loop motorized valve controller without math function Re trans PV mission oy whol output 1 ge Per Current O MRETI ka nting I output MV o 1 Measurement MVRB I I value input 1 By O ene eee A02 Current Q Ao2T output 2 4 settin g omp if Measurement L sv operation sv g ransmitter value input 2 Local SV h O O RET2 1 l supply Valve openings i i ii 1 i Control Relay output feedbaci IRSV1 i i I output 1 Close output signal R i M i Rel tput elay outpu Remote command i i Open outp
37. ut Remote s REM b ene i i stay command Parameter setting Pi r R oe Ia 1 1 1 ieee E aA R EX MV setting Remote EXM1 i acknowledge 1 i i 1 i Mariual sw A M chargeover i i command I 1 I No i L Relay i 1 EX MV allocation i is i output output N i i allocation 7 77T Do command I Do allocation canbe to I 1 changed with I 1 _ parameters 1 Do15 No j H Higher priority isd 1 assigned to designation allocation STBY or command __ Hee f Alarm 1 of TYP for the 1 1 Di allocation can be Di allocation H l I changed with para 1 meters i I 1 Since the R ACK Manual ances soe Toa I value is INH at the command i I i ie I time of delivery set 1 1 ALM1to5 e r j o a I it to ENA before use Front key A Y i REP T Indicator be AA ee ere during MAN I LDo5 lamp operation only I 1 Corofal OR of all e L ALM I Valve openings feedback input is used for the type of 5th digit D in CODE SYMBOLS Template N mre 1 loop SV selectable motorized valve controller without math function Re trans PV mission Ao1T output 1 l t i No CRET1 gt
38. y command output No nor Do allocation No EX MV EXMV allocation Do11 OUD j command oor Do allocation can be to hanged with Preset output Fly Bot value PMV1 Higher priority is No I Stand by Alara assi ned to designation i oi for the allocation STBY or command Pees output to Do4 i I Di allocation can be Di allocation i I changed with para I meters 1 Since the R ACK Manual A Mchargeover posits 1 value is INH at the command i ALM1to5 1 time of delivery set I Indicator itto ENA before use et 1 lam L i i P OR ofall Loc taa 1 the ALMs r ALM Template N 1 loop SV selectable PID controller with math function Re trans 1 Current Measure Result of T output or ment calculation Re trans SSR driver value gt IAiM mission output input 1 Q p Ao2T output 2 Current Measure output or ment Local SV OTYP Transmitter value setting supply input 2 i Control Rela Aux input Ai1 output 1 output EX MV setting Control EXM1 aH We a output Manual MV setting SV select signal 1 i SV select 1 SV select signal 2 SV select 2 pse Relay SY select i SV select 3 EX MV l ai output g output command Do EX MV EX MV No output command allocation command Preset output i Do allocation can be changed with parameters value PMV1 Stand by r Higher priority is l llovstion command H OPI ne al of for the STBY OF eee conaeaacdaus 1 output to Do4 1 1 Di allocation can be 1 Di alloc
Download Pdf Manuals
Related Search