ES250PW - Luxusní
Contents
1. 23 EY Xs SEZU i i H sH E ES j S euren SEET EE O estr Ech E i n JU DU 1 EEE NN Ro Chil Brif Et ECH m o EEZY HL Ap IC sezu JL E i B Z8 I L d 3 a I PESE OHZ ya E KT LB a TOTS pH NJ Cae oe Es ESTO d y EJ e al Ja a gt pe 2ain 5 ol lo ETID e 1 a a m n Bee ISIL S eie 1 10 T3 m Er Eg OR zizy PONN a nm S AE Sal 4 E TH RER e z ON CO Lon EICH RE Z bzzg a n z L l z BESSER 0 Mo Hd a E ZHOS 3 sa czaki SLID i o A ala gas l BILL 3 e eee m Zb i gt E ELCH D Bl e X ZETA A II s ou a i x a NO EC tot 1213 _ lan 8 CH gt E 9213 S 7 9 S NA TES SS JANA AJ krza SIZO BOZH SCCH SER C B GE EE ENEE EE S912 004 edie ES250PW ES250PW 12. ES250PW A B C D R195 R254 536K 4K3 C148 33pF P104A PE e U106 C E 20KQ 3KO1 TL074 Bia E ie 8 15K4 ES e 9 AA SW104 Q107 1d o gt 1 AA R196 R289 deed TRIS none N Mo EP IE ch ge _ R200 R202 C181 N x 20K 2KQ 2n2 Ll ME R208 Xt C152 280K 100u naor L 182 e VBBP1 R265 R205 AT 4K42 d pos R263 IT 4v3 Ce R207 5 ak 3 R206 5 t i 22K1 e PDS AMM VBBP1 LO MUTE 15V R16 o 220R U106 E 15V D VDD N 15V _ C153 C160 T04 104z 100u 9 ad 0154 t C159 P106 1042 R159 1 0u 220R U106 F N VBBP 15V H e VEE VBBP e S Sei Filename LIMITER Rev At Size FE gt CH gt Model No ES250PW 120 1 PAGE 6 12 LT CH Drawn by HUAJIA 50 2 CUSTOMER JBL a lt Date 2008 04 12 3 A B C D ES250PW A B R411 e 15V Q400 R400 AERIS A1015 1K R401 k 1K RAE Wee E ON R404 10K 10K d e MUTE a D400 3N5904 K 4148 Y Q403 RKS 2SC1815GR Sees 1K dL R409 258 Su D401 Green 5 A Red Green Red Filename LED_ 1 Rev Al Size A4 c O O CH gt Model No ES250PW 120 1 PAGE 7 12 UT Q Drawn by HUAJIAN 51 2 CUSTOMER JBL a SS Date 2008 04 12 5 A B
3. ES250PW J166 Ubb 9 BEAD am C168 Ac eda wg SP esee DARC Q2 D123 Z AR Ciz4 a A gt C173 An C172 mc1e3 186U SRL 2 2991 k 453 288U SIBIAN ES C169 B 1uF7100U d Bee Ubb 9 Ju BEAD U au U Ucc TU F R256 aro 1R C170 22000550 GB S R255r D124 DB1236 C171 gt 280u EE NAME DCPUWR Mother 18 12 Ucc MODEL iES250PH 1280REU R1 CUSTOMER JBL DATE SS 2008 04 12 APPROVE BY CHECK BY DRAWING BY 54 ES250PW Y ooo R35 R36 R37 R38 2 2K 9 2K2 2 2K 2 2K DZD12 TB EN E Z5 SWE gt 203 Ko z DS Loi S RES O X To R3 B L3 R38 E ON 2 2K A AMD ask TOK S luz 10K TB Raj ES N E y S S D5B cos DS C5 A E Sen S Ch s 7 EH ABE So 73 3K pa S wan ouep P 3 Sen ara p Pre RA lt MINS IRF9640 IRF964Q R28 RLS4148 Ne 4 7K 2 2K O 12 10 D 3 3K 4 F SE gt AN AM R24 RLS4148 2 2 2 2 aeg C13 R4 2 2 2 4 4 a2 d s AM NA 2 922uF these tuo parts are added guF 188U NP 185C C 2503906 OS 2 2 2 2K using p
4. ES250PW R289 104 y R214 e Qiii SE R288 L IS 16k Sr i Jens Ci8is 24 Ucc 5 gg C Ubb 5 S x D114 15U BERI HSS R260 8 K e A 5 MUTE gt 3 Ws Fe z P110 D117 GEN R261 D129 K101 4148 1N4148 R216 R SE 10K KR UTE DR id SEI UTE DE 10K 1 y ZDZQU R1815 R218 e t 189 PDS 22K E GE KIN 3 681K a m R219 R220 Y R21 TZIR264 7 AVE 12120 Sk238 4K7 22K 8 238 Gg R221 q112 SA EN a218 503 3 4k Ciel JJ 3 C155 E URB 5 pe m C156 220 180 x Q2 NTL431 zma L 2261 18U aE C1815 7 Q113 SN A E Z EAZA for PWA AMP
5. _ Nag A System Gain L or R inputs 437 a Refernce Single input driven L or R inputs Local inputs System Gain LFE input __ 491 a Reference SingleinputdrivenLFE local input_ EEN E AAA E ARA Signal to Noise Fee A A EE SNR A Weighted so dBA 75 _ relative to 1W A Weighting filter SNR unweighted 65 dB 60 _ relative to 1W 22K filter Volume max w A P Swept freq harmonics BW 20 KHz 1KOHM joe he AS O PES el linputimpedance II Line Input L R LFE 10K ohms ma _ Nomina Zz A PZF PA EEN Filters ME T S EE NIBSCI MI CC NE LP filter Variable Normal mode 50 150 Hz 10 Mib Order variable 24 db Octave Subsonic filter HPF 2nd Order Fixed YO Friend circuit Fea PT LFE Low pass 200 gt LP lt 500 3 FE input driven only PO ann pen EE AAA AAA A e e nnn E TT prrs 3 Drive unit 6dB above the required level to obtain full power THD at Max Output Power functional Approximately 800mV single input driven L or R input Maximum THD as a result of limiting iii ASAS Features n 2 gt Volume pot Taper lin log Lobe ss Phase switch 0 180 deg functional Te LP Filter defeat switch YES functional Disables LP filter Wireless mode only it has no effect when using local inputs Wireless ready YES sd functional Refer to Wireless section below System is provided with 4 wireless channels Wireless channels fu
6. TYPICAL HC HCT UNIT input capacitance Cpp power dissipation capacitance per package notes 1 and 2 35 35 pF Notes 1 Cpp is used to determine the dynamic power dissipation Pp in uW Pp Cpp x Vee x fi Y CL x Voc x fo where f input frequency in MHz fo output frequency in MHz Y CL x Vec x fo sum of outputs C output load capacitance in pF Voc supply voltage in V 2 Eor HC the condition is Vj GND to Vcc For HCT the condition is Vj GND to Voc 1 5 V ORDERING INFORMATION See 74HC HCT HCU HCMOS Logic Package Information ES250PW Philips Semiconductors Product specification 8 bit parallel in serial out shift register 74HC HCT165 PIN DESCRIPTION PIN NO SYMBOL NAME AND FUNCTION 1 PL asynchronous parallel load input active LOW 7 Q7 complementary output from the last stage 9 Q7 serial output from the last stage 2 CP clock input LOW to HIGH edge triggered 8 GND ground 0 V 10 Ds serial data input 11 12 13 14 3 4 5 6 Do to D parallel data inputs 15 CE clock enable input active LOW 16 Voc positive supply voltage SRG8 G1 SHIFT C2 LOAD ra 7287441 7287854 Fig 1 Pin configuration Fig 2 Logic symbol Fig 3 IEC logic symbol 33 ES250PW Philips Semiconductors Product specification 8 bit parallel in serial out shift register 74HC HCT165 8 BIT SHIFT REGISTER PARALLEL IN SERIAL
7. O O 9 ID Code Selector Antenna o G 180 O O Crossover Adjustment Control Subwoofer Level Volume Control 6 Phase Switch Wireless Antenna Crossover Transmitter n Transmitter Antenna Wireless e n QD Transmitter Power Supply Input ID Code A QD Transmitter ID Code Selector Transmitter Sub Input UBL JBL Incorporated H A Harman International Company This area is designed to become quite warm Sub In during normal operation CAUTION RISK OF ELECTRIC SHOCK DO NOT OPEN Power AVIS RISQUE DE CHOC ELECTRIQUE NE PAS OUVRIR On WARNING TO REDUCE THE RISK OF FIRE OR ELECTRIC SHOCK DO NOT EXPOSE THIS APPLIANCE TO RAIN OR MOISTURE AVERTISSEMENT POUR PR VENIR LES RISQUES D INCENDIE OU Off DE CHOC ELECTRIQUE EVITER D EXPOSER CET APPAREIL ALA PLUIE OU A L HUMIDIT AC 120V 60Hz 2A ES250PW SYSTEM CONNECTIONS Choose either Wireless or Wired connection then follow the appropriate instructions WIRELESS Connecting the Subwoofer for Wireless Applications SUBWOOFER OR LFE OUTPUT ID CODE U Sub In 3 R TOS TT 1 8 1 Connect a subwoofer cable from the subwoofer or LFE output of your receiver to the Sub In on the transmitter 2 Plug the transmitter module s power supply into the wall outlet and connect the included power cord to the transmitter 0 Make sure the Transmitter Ant
8. OUT 7287440 1 Fig 4 Functional diagram FUNCTION TABLE OPERATING MODES INPUTS Qn REGISTERS OUTPUTS De parallel load serial shift hold do nothing Note 1 H 2 HIGH voltage level h HIGH voltage level one set up time prior to the LOW to HIGH clock transition L LOW voltage level LOW voltage level one set up time prior to the LOW to HIGH clock transition q lower case letters indicate the state of the referenced output one set up time prior to the LOW to HIGH clock transition X don t care T LOW to HIGH clock transition 7287442 4 Fig 5 Logic diagram 34 ES250PW AD A M M AAA IE 4 MEU A VANN AD ENN AV AD AV fl Ep 24 Bit 96 kHz Stereo DAC for Audio Features eComplete Stereo DAC System Interpolation D A Output Analog Filtering e 101 dB Dynamic Range e91 dB THD N e Low Clock Jitter Sensitivity e 3 V to 5 V Power Supply e Filtered Line Level Outputs eOn Chip Digital De emphasis for 32 44 1 and 48 kHz e 30 mW with 3 V supply e Popguard Technology for Control of Clicks and Pops SCLK DEM1 DEMO sA rz Yo 4 Description The CS4340 is a complete stereo digital to analog sys tem including digital interpolation fourth order delta sigma digital to analog conversion digital de emphasis and switched capacitor analog filtering The advantages of this architecture include ideal differential linearity no distortion mecha
9. R502 C504 RX Mode Jan 31 08 ES250PW n S 00 OO oaaao 000 SS O d 000 o O e D 000 a y D D 000 E O O S 2 SAL SELA eg U ol m Ce E ES250PW V CUT V CUT V CUT 30 E d EYA a CJ eya ZAC FIA gt ETS Z LMS 90LMS NO Tan de v8 81 834 O ZA BJd XXSd P105 c117 134 du gt PSxx PCB V2 0 FEB 18 J34 J35 c113 CIS Ca J30 J46 Jan C155 T J28 D a A J36 C329 C330 4 C159 C160 BK1 Jte s14 pus c119 i See i ziz a ER ot C327 ea En K C141 C157 C158 C150 0149 J31 1 ay e Se eus P104 P106 1 a Se J49 J23 E J Cou J29 vaz J51 n C152 E r wA C134 J24 109 C213 c218 c209 die 1 121 P62 Pi J39 didis ei CS PR Nan J20 SW105 IA SW103 Sw104 Z ul Ae C201 E Dee sc JK1 ver C400 E JPG4 54 J33 J52bs BK2 KC VR1 1 104 A05174B00V E 8 0 3 0 UT 21 JBL JBL
10. QI 1 Qs s C1 Nose SW ID1 P3 DSR 80 U C12 E S LI s8 Ar ES brau PRZ ZER e AO E A 1 sq 5 I HE k an H Sty R19 d RY l poo Ze 3 Rig ran K APs a27 CZ eb a B28 d 1 EH ad 1d WE ce 13C5 49 H P pacz PTB Kerg 612 zey ez R22 M c R35 R31 E U1R8 2 EH cig Ree RS D zz VE go R24 ce n A7 B 2 10 Ve SCH aza en I Mr p US ec H e w Sc E SS R178 utas C142 C138 R189 01451 94 A05179A0BU E CSS tcU 7TH ZIH RIO 17 a O l O e e o om 9 G l G f EK o G O T o G G fo OM 3 e o a 9 88 en S G O G R504 R503 LALO ES250PW R3 R29 R27 s GU LL LL ca2 R16 R15R14 R13 5 O ka pes Jrs a C18 ES d KH Ner LI C509 L502
11. 05119 0BAE 304 SPCC 05147 0BAE 410 000 06492 E ES250PW ES250PW Test Set Up and Procedure AC VOLTMETER 1 VOLT gt SIGNAL INTEGRATED AMPLIFIER OUTPUT FROM GENERATOR IF NOT TESTING TRANSMITTER Equipment needed e Function signal generator sweep generator e Integrated Amplifier e Multimeter e Speaker cables e ES250PW Transmitter power supply General Unit Function Transmitter UUT Unit Under Test 1 From a mono output signal generator OFF at this time connect an RCA cable to the Sub in jack on the ES250PW Transmitter Assure the power supply has been plugged in and a Red or blinking Green LED is now showing on the transmitter Default ID Code switch position is 1 2 Position and plug in the ES250PW Subwoofer nearby less than 75 away power switch should be OFF 3 CROSSOVER PHASE switch position does not matter Low Pass switch should be OFF ID Code Switch position should be 1 4 Turn the LEVEL control on the UUT to completely counterclockwise MIN 5 Turn on signal generator adjust to 75mV 50 Hz LED on Transmitter should now be steady Green 6 Turn the power switch ON LED on top of Subwoofer should be momentarily Green then Orange 7 Turn LEVEL control full clockwise MAX immediate and vigorous bass response should be heard and felt from port tube opening on the bottom 8 Turn off generator turn LEVEL control full counterclockwise MIN and disconnect RCA cable
12. 74HC HCT165 are high speed Si gate CMOS devices and are pin compatible with low power Schottky TTL LSTTL They are specified in compliance with JEDEC standard no 7A The 74HC HCT165 are 8 bit parallel load or serial in shift registers with complementary serial outputs Q7 and Q7 available from the last stage When the parallel load PL input is LOW parallel data from the Do to D7 inputs are loaded into the register asynchronously QUICK REFERENCE DATA GND 0 V Tamb 25 C tr tg 6 ns When PL is HIGH data enters the register serially at the Dg input and shifts one place to the right Qo gt Q1 gt Qs etc with each positive going clock transition This feature allows parallel to serial converter expansion by tying the Q7 output to the Ds input of the succeeding stage The clock input is a gated OR structure which allows one input to be used as an active LOW clock enable CE input The pin assignment for the CP and CE inputs is arbitrary and can be reversed for layout convenience The LOW to HIGH transition of input CE should only take place while CP HIGH for predictable operation Either the CP or the CE should be HIGH before the LOW to HIGH transition of PL to prevent shifting the data when PL is activated APPLICATIONS e Parallel to serial data conversion SYMBOL PARAMETER tpHL feu propagation delay CP to Q7 Q7 PL to G7 Q7 Dz to Q7 Q7 maximum clock frequency CONDITIONS C 2 15 pF Vcc 5V
13. A1815 AN RA R2111 P112 R222 R223 220u 18U to i SE 4K 22K L L L E m Speaker SS ISI LM324 C P108 R257 C168 D118 2 R226 K5BRH14x28 5x6 35 om 24K9 UDD 128p R230 INAl48 He ir 15U ap 10K DE 24K9 Ubb Bo F SH Y 18K Ge E U187 5235 x R224 2 B225 LM324 A 7 Ga SEN ooh D128 a an 186p v rus EI PRE 13 R229 R228 1N4148 518 H T 18K 1k3 D119 L L x U187 1N4148 A R233 8 1M324 D 3232 U107 LM324 B Y Vv D121 CS 34 gt TET a vi NAME Pat Mother 8 12 1N4148 FE i a A MODEL ESZ25OQPW 120Q REV AL gt a u 270K ll Dens CUSTOMER JBL a DATE 2008 04 12 APPROVE BY CHECK BY DRANING BY 52 ES250PW Q116 DGS9A R241 CEU d 188 L Y R247 5 R242 L C165 cb1a2 R243 C166 KE 398 TNI Q117 AC163 C161 Ka cisis 60184 CDS l gu T m L WAN D122 AC164 C162 R248 V Ai 65184 EE GE R246 102 070 W 330 R249 N R245 AN R244 besen a 188 T8 w OD M oO D 53 Ucc Ucc NAME PNISU Mother 9 12 MODE ESZSOPWAIZ2Q REV AL CUSTOMER JBL DATE 28008 094 12 APPROVE BY CHECK BY DRAWING BY
14. Analog 1 0 TX WH4924 WH4928 RX WH4925 WH4929 Digital 1 0 TX WH4926 WH4930 RX WH4927 WH4931 Evaluation Kit 2 node EV4931 EV4937 Add on node EV4933 EV4939 Dev Kit Upgrade from any eval kit DK4909 Squeak 1 5 WHAM2 RX Digital 1 0 Jumper ig Eleven Engineering Incorporated DO4918 Squeak 1 5 WHAM2 Preliminary Datasheet rev 3 0 2006 04 06 ef www ElevenEngineering com Copyright 2006 Eleven Engineering Inc all rights reserved ES250PW WHAM2 Receiver Pinout E Pin Pin Name Analog O Digital I O Description NN OQ Oy BWEN 00 9 24 25 Default Default RF Voltage Power Input RF Ground Digital Ground Digital Power Input Reset input active low PB PB SPIOChipSelect CSO PB1 MISOO MISOO MISOO SPIO Master Data Input MISOO FW default PGO or GPIO port PGO MOSIO MOSIO MOSIO SPIO Master Data Output MOSIO FW default PG1 or GPIO port PG1 SCKO SCKO SCKO SPIO Clock output SCKO FW default PG2 or GPIO port PG2 PFO General Purpose IO port PFO FW default SDIO1 or Digital Audio Serial Interface1 DASI PF1 General Purpose IO port PF1 FW default SDIO2 or Digital Audio Serial Interface2 DASI zy Rcg P General Purpose TO port PC7 Pce pes fpe General Purpose IO port PC6 rege Ar EE D I General Purpose IO port PC4 Wu General Purpose IO port PCO MCLK Ce or MCLK output PC1 General Purpose IO port PC1 HW default AN2 or XInC2 ADC Ana
15. C 89 9 1 6T RoHS PCB post M3 10H RoHS 2 29 ES250PW National Semiconductor LM5008 High Voltage 100V Step Down Switching Regulator Features General Description The LM5008 Step Down Switching Regulator features all of the functions needed to implement a low cost efficient Buck bias regulator This high voltage regulator contains an 100 V N Channel Buck Switch The device is easy to implement and is provided in the MSOP 8 and the thermally enhanced LLP 8 packages The regulator is based on a hysteretic control scheme using an ON time inversely proportional to Vin This feature allows the operating frequency to remain relatively constant The hysteretic control requires no loop compensation An intelligent current limit is implemented with forced OFF time which is inversely proportional to Vout This scheme ensures short circuit protection while providing minimum foldback Other protection features include Ther mal Shutdown Vcc under voltage lockout Gate drive under voltage lockout and Max Duty Cycle limiter Connection Diagram 8 Lead MSOP LLP Ordering Information Typical Applications Package October 2004 Integrated 100V N Channel buck switch Internal Voc regulator No loop compensation required Ultra Fast transient response On time varies inversely with line voltage Operating frequency remains constant with varying line voltage and load current Adjustable output voltage Highly eff
16. D125 D126 A et Wn a ER OO ES Miscellaneous gt O O pe e 0 M mt R AD pe 175 1C02V01 E Connector 2PIN PITCH 2 5mm RoHS P108 120 1000003 E Inductor 10W AI YT C3104 0051CRHW354708LTBS LF J161 J165 75 1c06v01 e Connector 6 PIN PITCH 2 5mm RoHS 1 P107 JP1 w 62 FE 00041 0LAE PCB stand 11 75 8 5 12 5H RoHS E 71 UDHSS124D E Relay 5A 24V UDH SS124D RoHS K101 P112 P113 75 1d02v01 e Connector 2PIN PITCH 3 96mm RoHS 75 1d05v01 e Connector 5PIN 3 96mm RoHS ae 1 Od INPUT PREAMP PCB KEE LL AAA 18 08050000J E SMD Resistor 0805 1 10W 00 5 LF 2 JPLJP3 O 6 6 18 08051000F E SMD Resistor 0805 1 10W 100 1 LF 18 08051001J E SMD Resistor 0805 1 10W 1K 5 LF R400 R401 R405 R406 R410 R140 R330 R331 R111 R117 R118 R122 R124 R133 SMD Resistor 10 0K 0805 1 10W 1 RoHS 17 R136 R146 R149 R308 R199 R263 R130 R131 R132 18 08051002J E SMD Resistor 0805 1 10W 10KQ 5 LF P1 JP3 R314 R315 R125 R151 R152 R215 ER zx Qo CO a o o N Lo m U Sech oO a S o R142 1 R14 R402 R403 18 08051004F E SMD Resistor 0 1W 1M 1 RoHS 18 08051053F E 18 08051201J E 18 08051500F E 18 08051504F E 18 08051542F E 18 08051802J E SMD Resistor 18K 0805 1 10W 5 RoHS 18 08052001F E SMD Resistor 0 1W 196 2K RoHS 18 08052002F E 39 2 R411 R332 R333 R119 R120 R154A R155A R13 9A R160A R334 R335 04 8 118 08052200J m 18 080
17. Edge pin 19 Edge pins 22 amp 23 Jumpers Components J3 OR J4 DNP J3 DNP J4 OR J5 OR J6 DNP J5 DNP J6 OR J7 OR J8 DNP J7 DNP J8 OR J9 OR J10 DNP J9 DNP J10 0R J17 J18 DNP U5 CS4341 R19 R20 10K R23 47K R25 R27 100R R26 OR C7 1uF C9 C13 10uF C12 C14 8200pF C22 C30 C31 0 1uF C33 470pF J17 J18 OR U5 DNP R19 R20 R23 DNP R25 R27 DNP C7 DNP C9 C13 DNP C12 C14 DNP C22 C30 C31 DNP C33 DNP WH4925 29 WH4927 31 Pin Function Default config Default config Pin 16 is GPIO port pin PCO FW configurable as input or output Pin 16 is MCLK output FW programmable frequency typically 12 288 24 576 or 49 152 MHz Pin 17 is GPIO port pin PC1 FW configurable as input or output Pin 17 is AN2 XInC2 muxed analog input 2 Input voltage range of ADC is OV to 1 8V Pin 18 is FW selectable as either GPIO port pin PIO or baseband unit 1 clock pin BB1CLK PIO is FW configurable as input or output Pin 18 is AN1 XInC2 muxed analog input 1 Input voltage range of ADC is OV to 1 8V Pin 19 is FW selectable as either GPIO port pin BI or baseband unit 1 data input output pin BB10 PI1 is FW configurable as input or output Pin 19 is Left Right Clock pin LRCK output Pin 22 is Right channel Analog Audio Output AOUTR Pin 23 is Left channel Analog Audio Output AOUTL P
18. P113 Xx SARA AKA os o OUTPUT ten gt Lez INPUT N b fa TA SAA AA po WHITE SAANA BRONNE Ke C2 Se i o K5BRH17 5 28 5 9 5 cos AAA Int KSBRH14 2x28 5x6 35 CORE3 P121A1 CH Rei i b LA L ss AY TO P1018 ALAS KSBRH12x20X5 6 M APPROVE BY CHECK BY DRAWING BYINAME AC INNET 12 12 MODEL ES2S PW 12 JEU RI DATE 2008 04 12 A B 8 D RO3 99999999 ANTENNA avd e e e e 47K R01 R02 yon PO Leen 4R7 C01 C04 4R7 D I rCD104 a SS14 PQ2 PQ3 e 7 e A m CORES B LINK1 WY o id m K5B RH G H RXLOUT 470u 10N 478u 10V gi EGO HL 5 o a C02 Con gt gt 6 35 15 843 3 G RXROUT e Sg MDQ1 CD104 CD104 STM809 Rx 11G l ce3 ces TV D e RFVcc CD103 CD102 RFGND e GND e Vcc C0
19. as an A V receiver or preamplifier to the transmitter if using a wireless connection or to the subwoofer if using a wired connection Two single RCA cords are provided While you would ordinarily use the short cable to connect to the transmitter or the long one to connect to the subwoofer either cable can be used depending on proximity to the signal source There is no need or benefit gained from connecting the same source to both the transmitter and the subwoofer However you could connect two separate sources to the subwoofer by utilizing both its wired and wireless connections Both signals will essentially be mixed and outputted by the subwoofer Plug your transmitter s if using a wireless connection and subwoofer s AC cord into a wall outlet Do not use the outlets on the back of the receiver for the subwoofer Initially set the Subwoofer Level Control to the Min position Turn on your sub by pressing the Power Switch on the rear panel Turn on your entire audio system and start a CD or movie soundtrack at a moderate level Auto On Standby Transmitter Wireless Connection Only The Status LED not shown will be lit in red when the unit is in Standby When the transmitter receives an audio signal from the source it will immediately turn on and the LED will turn to blinking green or solid green RED STANDBY No signal detected transmitter off GREEN BLINKING Transmitter is on but has not established a link with t
20. receptacle EN 60320 230V model will include SCHUKO and UK C7 cords 120V includes 120V US cord only Power supply should be certified mere e mel ee its end use EN IEC 60065 2002 TUV PSE SE HEET ES Er ei EEES Other Parameters Notes 1 Volume control should be at the input buffer stage in order to lessen the possibility of clipping the input section with highly dynamic audio material 2 ALL SPECS SHOULD BE MEASURED AT NOMINAL LINE VOLTAGE gt LFE Input Channel ID switch gt ae VDC W ES250PW PACKAGING QTY RE AAA ES250PWBE _____ ES250PW Beech ES250PWBK ES250PW Black _2 Benal Number O 3 Dale Label 6 Visitwwwjb com ___ ES250PW Owners Manual RSC 3 400 000 08368 E Outer Carton ES250PW Beech 400 000 08371 E ___ Outer Carton ES250PW Black 10 T Calon Label al L or 015 7600 00037 E c a 15106PE15200E oca e 152 U60201A02 E 120v AC cord for ES250PW g 165 045801100 E 15 ft Audio cable RCA RCA h 376 h 376 000 01092 E Wall Mount Bracket transmitter j 373 000 05067 E Adhesive feet round set 4 NS 400 000 08367 E Outer Carton ES250PW Cherry 000 08368 000 08371 ES250PW JBL CONTROLS AND CONNECTIONS Rear Panel a UN Q Power Switch 2 Line Level Inputs LFE Input Low Pass Selector Wireless Input Only
21. 0 RoHS SMD capacitor 100pF 50V 10 1206 NPO RoHS SMD capacitor 22pF 50V 10 1206SMT NPO RoHS SMD capacitor 560pF 50V 10 1206 NPO RoHS SMD capacitor 1206 Y5V 0 1uF50V 20 RoHS SMD capacitor 10nF 50V 1 1206 X7R RoHS SMD capacitor 0 1uF 250V 10 1210 X7R RoHS R47 R2 R25 R29 R30 R30B R7 R9 4 R20 R20B R22 R23 R26 R13 R16 R31 R33 R34 R35 R36 R37 R38 R39 R40 R41 R42 R43 R44 R45 R46 R32 1 R4 1 R24 1 R10 4 R14 R15 R27 R28 1 Ri 1 R3 3 R8 R11 R21 1 R12 1 R5 D 2 C16 C17 2 C12B C14 1 C21 1 C20 1 C40 1 c4 1 C5 1 C6 8 C2 C3 C7 C8 C9 C10 C11 C15 1 C13 2 C18 C19 s 92 1582N5401 E Transistor FSC 2N5401 AI PNP 350V500mA TO 92 RoHS Q6B 92 232IRF9640 E FET IRF9640 IR P CH TO220 RoHS Q10 Q10B 92 233F640N E Transistor IRF640N INTERNATIONAL RoHS Q11 90 16tl072dts e SMD I C TLO72CDT SGS THOMSON RoHS DUAL OP AMP C1 92 09124126qs e SMD transistor 28C2412K T146Q RROHM RoHS 2 Q1 Q4 92 09139066rs e SMD transistor 2SC3906K T146R ROHM RoHS Q2 Q8 92 091SC4672 E Transistor 25C4672 MPT3 ROHM RoHS 1 Q5B 92 09210376qs e SMD transistor 2SA1037K T146Q RROHM RoHS 2 Q7 Q9 92 09215146rs e SMD transistor 2SA1514K T146R ROHM RoHS 1 Q3 97 03rls4148s e SMD diode RLS4148 TE11 ROHM RoHS 8 D1 D2 D3 D4 D5 D5B D6 D20 99 15000563S E SMD ZENER 5 6V 5 PHILIPSBZX84 C5V6 RoHS 1 22 99 1500120s e SMD ZE
22. 016D001 E 62 5018D007 E 62 5019D002 E 62 5054D001 E 66 5070A4BD E 80 P3024DB E 188 ASDWLANO1 E 93 054211 E 93 201612TR E 36 AL 05001 OLAE 02 AL 05169 1BAE 06 ABS 05079 0BAE 11 ABS 00028 0BAE 25 FE 00400 0LAE 33 EVA 00188 0BAE 33 EVA 00220 0BAE 33 EVA 00866 0BAE 33 EVA 05782 0BAE 35 NYL 00002 0BAE 36 RUB 05103 0BAE 50 EM04012D024 E 51 AM02606A011 E 351 AM03008A078 E 51 AM03008A079 E 51 AM03018A364 E 51 HM03006A308 E 351 HM04010A217 E 352 AM02606C1136 E 352 AM03008D040 E 352 AM03008D041 E 352 AM03010D065 E 352 BM03010D064 E 354 HM03005 E 355 P07049 E 361 FE 00002 0LAE 362 FE 00013 0LAE 362 NYL 05049 OLAE Ferrite core K4DRH 16 28 5 9 RoHS Ferrite core K5ARH 6 35 3 2 15 8 RoHS VDE 2PINS INLETSOCKET PRONIC RoHS i Rear plastic tube 198 298 102H RoHS pau 0 0 1 5 0 s Knob 46077 W P V C ROHS LEVEL CROSSOVER 2 O PCB stand 58 9 13 5T RoHS LI Power Transformer 120V RoHS VDE 2PINS INLETSOCKET PRONIC RoHS 1 1 RUB gasket 97 16 3 0T bk RoHS M2 6 6 Machine screw cross BLK RoHS 2 10 2 2 Machine screw M3 6mm cross BLK RoHS M4 10 Machine screw cross BLK RoHS 3 8 B type ping screw cross BLK RoHS 2 2 3 8 Btype ping screw cross with nickel ROHS 3 10 Ptype ping screw cross BLK RoHS 1 Washer 7 2 12 0 5t RoHS 1 1 92 PCB stand L TYPE t 1 6mmS P C
23. 19 R154A 14 5V R151 U101 C 220R U102 E zap uw U103 C 100R VDD e e 15V VDD e A VDD w e 15V D208 D207 C112 c113 c232 C124 c158 C118 C117 C155 1N41484 Y 1N4148 104z 100u 104z 104z 100u 1042 100u ZZ 100u R215 e e eo o e e LFE IN e LFE C114 C233 B C125 C116 119 L 180R 104z SC 104z 1042 KS A 104z SE E u u R2192 C212 U101 D 226R U102 F Soon _ U103 D TOOR 47K 220P VEE e e 0 15V VEE e A WEE e 0 15V 15V U108 D VEE a Filename Pre Rev Al Size A4 gt O gt Model No ES25 PW 120 1 PAGE 4 12 L UT Q Drawn by HUAJIAN 48 2 CUSTOMER JBL Q Q E Date 2008 04 12 3 A B D koka B C D OUT oo A U105 D VEE e INOUT_ VEE ep E n f INOUT vDD e N U105 C IN VDD P104 C143 R253 C137 Son 3K74 SE demm LI n R190 GI Rigg C142 S137k U105 B e 2 5 U 23K7 Si E gt TL072 R173 R178 1 7 15K4 15K4 3 R251 R191 5 our IN AN e e e e 1K43 OR c138 L R189 47nF T 8K25 Filename In Out Rev Al Size A4 c O O o gt Model No ES250PW 120 1 PAGE 5 12 L UT Q Drawn by HUAJIAN 49 2 CUSTOMER JBL Q e RR Date 2008 04 12 3
24. 20v Electrical Parts List WE SE We ee pe Reference Designator PO ES WEE EG MAIN POWER SUPPLY PCB Pa IM em Resistors RET A KR AC KI Os 1 L L Resistor TSC05103J 10K 5 ROHS R237 Resistor 1 5K 2W 5 CF 20mm KINK RoHS Resistor 200K 1 4W 1 MF26mm RoHS Resistor 1 8K 1 6W 5 CF 26mm RoHS Resistor 270K 1 6W 5 CF 26mm RoHS Resistor 1 4W100ohm 5 RoHS Resistor 10K 1 6W 1 MF 26mm RoHS 1116 162001F26 E___ Resistor_2 00K 1 6W 1 MF26mm RoHS 116 162492F26 E Resistor 24 9K 1 6W 1 MF26mm RoHS Resistor 681K 1 6W 1 MF26mm RoHS 16 141R00J26X E 10 16102J26 E 2 3 Resistor 10K 1 6W 5 CF 26mm RoHS Po ME e 2 3 2 3 10 16222J26 E Resistor 2 2K 1 6W 5 CF 26mm RoHS 2 R242R245 1 1 1 RoHS 3 ze o EN o EN o eo c N P m 10 16223J26 E 10 16472J26 E Resistor 4 7K 1 6W 5 CF 26mm RoHS 10 16473J26 E 1 13 50R10J10 E el RARE A eed AAA 40 RX103KA03 E Capacitor 10nF 100V X7R 10 RoHS C174 35 4228M35 E Capacitor 1000P 50V 10 RoHS Capacitor 100P 50V 5 RoHS Capacitor 220U 10V 20 RoHS po Ra RS ee E ASE Semiconductors TT Ee zzz a PL gt Z JS LC LM324N RoHS QUAD OP AMP Rectifier 1A 200V DFOZMDB103G RoHS BRIDGE Diode GDZJ15C500mW 15V 2 ROHM 52mm 1N5245B Roj 1 D122 2 24 ES250PW Reference Designator E MAIN POWER SUPPLY PCB es a ll AAA AAA ae 197 631N4148 E Diode 500mW 75V 1N4148 Panjit RoHS D117 D118 D119 D120 D121
25. 52202F E SMD Resistor 0805 1 10W 22K 1 RoHS 18 08052202J E SMD Resistor 0805 1 10W 22KQ 5 LF 18 08052212F E SMD Resistor 0805 22 1K 1 RoHS 18 08052262F E 18 08052803F E SMD Resistor 0805 280K 1 10W 1 RoHS 18 08053011F E 18 08053301J E 18 08053401F E SMD Resistor 3 4K 0805 1 10W 1 RoHS SMD Resistor 0 1W 1 4 3K RoHS SMD Resistor 0 1W 1 4 42K RoHS SMD Resistor 4 7K 0805 1 RoHS 118 08054702J E SMD Resistor 47K 0805 1 10W 5 RoHS ES Ge dee SMD Resistor 470K 0805 1 10W 5 RoHS SMD Resistor 4 99K 0805 1 10W 1 RoHS SMD Resistor 0805 1 10W 4 7 1 RoHS SMD Resistor 5 1K 0805 1 10W 1 RoHS 8 R316 R317 R318 R319 R320 R321 R322 R323 SMD Resistor 0805 536K 1 10W 1 RoHS SMD Resistor 0805 6 49K 1 RoHS SMD Resistor 6 8K 0805 1 10W 1 RoHS 6 R300 R301 R110 R112 R113 R123 115 H103A101 E Resistor A10K RoHS LEVEL 115 H503B405 E Resistor B50K RoHS CROSSOVER AA E C LH Capacitors AA E E EE ll El 1 141 B0221J50 E SMD capacitor 220P 50V NPO 0805 RoHS C304 C305 C212 141 B0330J50 E SMD capacitor 0805 33pF5 50V RoHS 141 B0470J50 E SMD capacitor 47pF 0805 NPO 50V RoHS ES250PW Part Number Reference Designator INPUT PREAMP PCB CS WEE enn pe 141 B0680J50 E SMD capacitor 68pF 0805 NPO 50V RoHS C127 C320 C322 C112 C114 C116 C118 C124 C125 141 B5104Z50 E Capacitor CAP SMD 0805 Y5V0 1uF 80 20 50V LF 19 C130 C232 C233 C153 C154 C184 C185 C206 C205 C144 C145 C181 C182 C110 141
26. 9 RST e e d PB1 CSQ CD104 MSIO 9 e MOSIQ vee ey e A PEG ID DATA RO4 NA poe ROS R13 Gd R17 E CU e JPL Vcc e PL Vec e PCO ID_ LATCH 20K 20K EIN 20 daj NE LED CP CE e e cP CE PC4 BOND_ LED R25 R09 R14 R18 Pes D4 D3 Sg D4 D3 kd MCLK 20K 20K 20 20 PC7 12C_ SDA D5 D2 e D5 D2 Pilelizc SCL ROG R10 R15 R19 LRCK e D6 D1 D6 D1 e Pi2 20K 20K 20 20 AGND1 D7 DO D7 DO SDOUT R07 R R16 R20 SCK Q7 Ds e 07 Ds AGND2 20K 20K 20 20 AVdd SWO1 GND Q7 A e GND Q7 E 74HC165 tok L 74HC165 AS Geo ed lt lt ZE U04 Ead C13 C T RXROUT M c e LINKI MUTEC RST Hos 620R 100716V AOUTL SDATA M SC C12 ORO R40 VA SCLK DEM1 WA RXLOUT e WA CA R29 ORO 6208 YD AGND LRCK WA SC cz1 L C20 18u 16V RA R32 ORO 3n3 3n3 T 10K 10K AOUTR MCLK WA ORO e e e e e REF_GND DIF 1 E ti gt es VQ DIFO NONE pi BN C17 Gl GSR apis SS FILT DEMO CD104 4 1u 16V e C18 Lol C10 C11 J Ra ES 18u 16V 56R R22 CD104 GP 100u 16v 4 pi EA OR R38 4K7 10K AP WM Tum E E Filename Wireless Rev A1 Size E Ol gt Model No ES250PW 120 1 PAGE 2 12 L 0 Ol Drawn by HUAJIAN 45 2 CUSTOMER JBL a Q ae Date 2008 04 12 3 B e D B C Y ES250P
27. B7472J50 E SMD capacitor 0805 X7R 4700PF 596 50V RoHS 129 A104J633 E Capacitor 0 1U 63V 5 MSC RoHS 129 A683J633 E ____ Capacitor 0 068U 63V 5 MSC RoHS 2 C201 C213 1 1 1 135 3106M25 E Capacitor 10uF 25V 20 RoHS E ai C109 EE C152 C159 C160 C327 C328 C155 C156 C113 O Capacitor OUE Ap a ROHS C115 C117 C119 C132 C157 C158 C329 C330 135 3226M25 E Capacitor 85 C 22uF 20 25V LF C312 C151 139 3227M16 E Capacitor 220uF 16V 20 RoHS 1 C131 A A EES 190 16TLO72DTS E LC TLO72N 6 5 RoHS DUAL OP AMP 192 02701815GRS E___ SMT Transistor MMBT1815 SOT 23 ROHS TS Q402 0403 0101 0102 0103 192 998A1015GRS E SMD Transistor MMBT1015 CJSOT 23 RoHS 2 Jamo O O 197 084148WSP E SMD diode LL4148WSP 0805SHAWELL BA S EES 199 6200043D E Zener diode 4 3V BZT52 CAV3SSOD 323 RoHS 1 D130 Pee ee ESE AA CEET Miscellaneous AAN A A HE 362 FE 00041 0LAE PCB stand 11 75 8 5 12 5H RoHS A A AA AAA A EQ DAUGHTER BOARD PCB n A e AA EEE AREA LEES 116 161001F26 E Resistor 1K 1 6W 1 MF26mm RoHS 116 161373F26 E Resistor 137k 1 6w 1 MF RoHS 116 161431F26 E Resistor 1 43K 1 6W 1 MF RoHS 116 161542F26 E Resistor 1 6W 15 4K 1 26mm RoHS 116 162372F26 E Resistor 23 7K 1 6W 1 MF RoHS 116 163741F26 E Resistor 3 74K 1 6W 1 MF RoHS 116 168251F26 E Resistor 8 25K 1 6W 1 MF26mm RoHS 129 A104J633 E Capacitor 0 1U 63V 5 MSC RoHS 129 A273J633 E Capacitor 0 027uF 63v 5 MS
28. C RoHS 129 A473J633 E Capacitor 0 047U 63V 5 MSC RoHS Capacitor 0 1U 50V 80 20 RoHS LC TLO72N 06 5 RoHS DUAL OP AMP R 5 ES250PW Reference Designator CLASS D PCB ASS Y RECOMMENDED REPLACE ENTIRE MODULE PART 051 A05022C E Resistors 12 10180J00 E 18 12061001F E 18 12061002F E 18 12061002J E 18 120610R0J E 18 12062002F E 118 12062201J E 18 12062204J E 18 12062211F E 18 12062550F E 18 12062701J E 18 12063301J E 18 12063321F E 18 12063922F E 18 12064700J E 18 12064701J E 18 12064751F E Capacitors 28 E106MA01 SE 29 A104JA03 E 30 SL681KB03 E 32 104KB50 E 32 105KB50 E 41 C0101K50 E 41 C0220K50 E 41 C0561K50 E 41 C5104M50 E 41 C7103K50 E 41 D7104KB5 E Semiconductors Resistor FMF 1W 18Q 5 RoHS SMD Resistor 1K 1206 1 RoHS SMD Resistor 10K 1206 1 RoHS SMD Resistor 10 0K 1206 5 RoHS SMD Resistor 10 00 1206 5 RoHS SMD Resistor 20K 1206 1 RoHS SMD Resistor 2 20K 1206 5 RoHS SMD Resistor 2 20M 1206 5 RoHS SMD Resistor 2 21K 1206 1 RoHS SMD Resistor 1206 2550 1 RoHS SMD Resistor 2 70K 1206 5 RoHS SMD Resistor 3 30K 1206 5 RoHS SMD Resistor 3 32K 1206 1 RoHS SMD Resistor 1206 39 2K 1 ROHS SMD Resistor 4700 1206 5 RoHS SMD Resistor 4 7K 5 1206 ROHS SMD Resistor 4 75K 1206 1 RoHS Capacitor 10uF 100V 20 RoHS Capacitor 0 1U 100V 5 MSC RoHS Capacitor SL 680PF 200V RoHS Capacitor 0 1U 10 250V RoHS Capacitor 1uF 250V 1
29. General Unit Function Direct connection No Transmitter 9 From a mono output signal generator OFF at this time connect an RCA cable to the L R jacks on the ES250PW Subwoofer Use a Y cable to connect to both inputs power switch should be OFF 10 PHASE switch position does not matter CROSSOVER control should be set at 150Hz Low Pass switch position does not matter 11 Turn the LEVEL control on the UUT to completely counterclockwise MIN 12 Turn on signal generator adjust to 75mV 50 Hz 13 Turn the power switch ON LED on top of Subwoofer should be momentarily Red then Green 14 Turn LEVEL control full clockwise MAX immediate and vigorous bass response should be heard and felt from port tube opening on the bottom 15 Turn off generator turn LEVEL control full counterclockwise MIN and disconnect RCA cable 11 ES250PW Sweep Function 1 Follow steps 9 14 above using a sweep generator as a signal source 2 Sweep generator from 20Hz to 300Hz Listen to the cabinet and drivers for any rattles clicks buzzes or any other noises If any unusual noises are heard remove woofer and test Driver Function 1 Remove woofer from cabinet detach and wire clips 2 Check DC resistance of woofer it should be 3 6 ohms 10 3 Connect a pair of speaker cables to driver terminals Cables should be connected to an integrated amplifier fed by a signal generator Turn on generator and adjust so that speaker level out
30. I Audio RX ModuleWH4927 RoHS 97 638110 E Diode 5100 100V 1A SMADO 214AC RoHS pam ees El 62 5009D006 E 21 COMM220M E SMD inductor 22UH 20 YC5D18T 220MS ROHS et p 0 Wire 90mm P 20mm RoHS 80 5S14H03GT E SLIDE SW SS14H03GT GP RoHS Wireless ID Code 1 2 3 4 21 COMM221M E SMD inductor 220UH 20 YC8D43T 221MS RoHS 75 1BO4VO1A E Connector 4PIN PITCH2 0mm RoHS Wire 90mm P 2 0mm RoHS 75 1C02V01 E Connector 2PIN PITCH 2 5mm RoHS 75 9B06V03 E Connector 6Pin PITCH 2 0mm RoHS o O o D 3 o a 75 9Y25V2201 E PIN HEADER 25PH 1 27mm RoHS 1 333 EVA 05425 0BAE EVA 13 10 3MM CONTROL 2 4G RoHS 362 FE 00041 0LAE PCB stand 11 75 8 5 12 5H RoHS 2 BKO1 BKO2 o EMFUSEPCB S G E A EE m RH Inductor RT251510 103N 10mH RoHS Capacitor Y1 1NF 20 250V RoHS Capacitor 0 33U 275V 10 RoHS 162 10090003 Wire 9Omm20AW 187t0 51617 ROHS CT 162 10099003 Wire 90omm20AWG4187t0 51617 RHS CT 154 K3150570 E Fuse 3 15A 250V 30mm UL CSA PSE RoHS TI Fuse holder UL CSA 6 30mm R3 45B RoHS M AJ EE Pa PS E CORN ES250PW Reference Designator EE MISCELLANEOUS MECHANICAL WEE DEE ENEE 195 443391EV E Bipolar LED Cabinet 339 1EVGW 339 1SURSYGW S350 4 1 D401 128 C117JA01 E electrolytic CAP 110uf 100V Soldered to Woofer terminals 123 11K4DRH E 123 11RH633215 E 150 R1107011A E 53 VPST101S2 E 62 10090003 E 62 10129004 E 62 10130005 E 62 5
31. JBL ES Series ES250PW Wireless Powered Subwoofer Service Manual JBL Consumer Products 250 Crossways Park Dr Woodbury New York 11797 Released 2008 Rev2 3 2009 Discontinued XXXX ES250PW CONTENTS BASIC SPECIFICATIONS xe e e DETAILED SPECIFICATIONS PACKAGING E CONTROLS CONNECTIONS OPERATION E SUBWOOFER EXPLODED VIEW PARTS LIST TRANSMITTER EXPLODED VIEW PARTS LIST TEST SET UP AND PROCEDURE AMPLIFIER BLOCK DIAGRAM eee SUBWOOFER AMP TROUBLESHOOTING TRANSMITTER TROUBLESHOOTING RECEIVER PCB TROUBLESHOOTING P C B DRAWINGS zoo d ELECTRICAL PARTS LIST IC TRANSISTOR PINOUTS eee SCHEMATICS ege eegend ees ES250PW SPECIFICATIONS Amplifier Power RMS 400 Watts Peak Dynamic Power 700 Watts Driver 12 305mm PolyPlas Inputs Low Pass Frequency Line Level or LFE Frequency Response 25Hz 150Hz Operating Range Up to 75 22m depending upon conditions RF Operating Frequency 2 4GHz Subwoofer Dimensions H x W x D Transmitter Dimensions H x W x D Weight JBL continually strives to update and improve existing products as well as create new ones The specifications and details in this and related JBL publications are therefore subject to change without notice The Peak Dynamic Po
32. JIAN 47 2 CUSTOMER JBL Q Q SE Date 2008 04 12 A B C D ES250PW A D SW105 0317 Wireless SW C141 II 3n3 R112 LFE 10u R308 6K8 O AN R124 5 2 10K L w1 5 N e R113 3 LP 10K T01 R125 P10 em DER C48 30 al 100R s 3 a U108 A E ctio TL 072 2n7 o R110 6K8 C201 U102 C SE Wilk VR1 e R M683 TL074 1 Se C189 TL 079 10KA 10u U101 B R297 VR2 C VR2 D R298 fan l GE 6 TL 012 R209 VRZ B VRZA R296 8 22K6 SOKB 50KB 22K6 um eno L EE 7 22K6 50KB 50KB 22K6 jq VAN ag vi S i en T01 AAA e R128 3 T u 5 C218 L 3K4 8 Ba c209 M333 1 ale R118 M333 77 18 gt 14 5V R146 R142 eee 1M5 p R153 4R7 103 190 R147 G1815 a 18K R148 A maa U103 A 22K R134 POR Q102 TL 072 A PDS Clete e 1 R149 D109 Y C152 10K C131 NM 509 1N4148 100u Ze R122 H Q101 C121 10K D188 1 C1815 R144 R14 Ver ee e WEE I A o NE e AN e CA AM e MUTE Se 180 0deg R133 C130 R141 R143 10K d 1042 22K 470K R132 QKO U108 C VDD 15V 15V R1
33. NER 12V 596 PHILIPSBZX84 C12 RoHS 3 24 25 Z6 EE Miscellaneous Connector 2PIN PITCH 2 54mm RoHS 1 HDR3 Connector 3PIN PITCH 2 54mm RoHS 2 HDR1 HDR2 59 FIB 00125 E Gasket 10 5 0 5T RoHS 22 13151K0190 E CHOKE SA 500 280 PT1601B 151MAA RoHS 22 14300K4 E Ferrite core LD1215 300KU 10 RoHS 75 9F02H02 E 75 9F03H020 E WIRELESS RECEIVER PCB Resistors 18 08050000J E SMD Resistor 0805 1 10W 00 5 LF 8 R21 R27 R28 R29 R30 R36 R37 R22 ES250PW Reference Designator LT WIRELESS RECEIVER PCB a fe JE A A zz HM 118 08051002J E SMD Resistor 0805 1 10W 10KQ 5 LF R26 R12 R13 118 08051200F E SMD Resistor 1200 0805 1 RoHS R503 118 08052002J E SMD Resistor 20K 0805 1 10W 5 RoHS ED hice Nye ROS AD RU A R16 R17 R18 R19 R20 SMD Resistor 24000805 1 ROHS R504 SMD Resistor 270K 0805 5 RoHS R502 SMD Resistor 47K 0805 1 10W 5 RoHS SMD Resistor 0805 560 1 10W 5 RoHS AAA A ci si Ss 4 Capacitors TT p ne i p ll Capacitor CAP SMD 0805 X7R0 1uF 10 50V LF RoHS 1135 3476M100 E_ Capacitor 47uF 100V 20 10 16 5mm RoHS pene EF LL Semiconductors SS Cite Mi SMD IC LM5008MM NOPB NATIONAL RoHS High Voltagd ER 100V Step Down Switching Regulator A 4301 eres SMD IC 74HC HCT165 RoHS PHILIPS 8 bit parallel in serial U02 U03 out shift register 90 99CS4340KS E IC CS4340 KS 16Pin SoIC RoHS 24 Bit 96 kHz Stereo DA 90 99IMP809S E SMD IC IMP809SEUR T IMPXROHS RESET 51 WH4927 E Wireless HI F
34. OTE The customer is responsible for the correct selection and use of mounting hardware available through hardware stores that will ensure the proper and safe wall mounting of the transmitter Insert the two M3 x 4 machine screws through the wall bracket and into the rear of the transmitter module as shown Attach the transmitter module with wall bracket to the wall using suitable hardware and if necessary wall anchors o0 O M O ES250PW ltem Part Number Description Qty 1 Not for Sale ES250PW Cabinet 1 2 327 010 00622 E Grille Cup BLK 4 3 249 HIPS 050930BAE Port Tube 1 4 351348 001 LED Plate 1 5 361 NYL 05101 0BAE LED Socket 1 6 316 HPS 05236 0AAE JBL Logo 1 7 352 KMO3520D1148 E Screw LED Plate 4 8 363389 001 12 Woofer DCR 3 6Q 1 9 213 120 05153 0AAE 12 Trim Ring 1 10 352 KMO4020D1149 E Screw Trim Ring 8 11 321 ABS 00008 E Foot Plastic main body 4 12 321 RUB 00009 E Foot rubber glide 4 13 352 HM04030D500 E Screw Foot 4 14 Not for Sale ES250PW Amplifier 120v 1 15 352 AM04020D880 E Screw Amplifier 10 16 ESZSOPWT2OSSEAUNCH Transmitter complete 120v 1 or 015 7600 00037 E ES250PW ES250PW TRANSMITTER Part ES250PW120V LAUNCH or 015 7600 00037 E AR 303 ABS 05099 0BAE 188 ASDWLANOI E 236 050 05 107 OBAE 337 SN 05011 0LAE 352 AM02606C1136 E V 352 AMO2606C1085 E i I d 320 SBR
35. SOR RESET Circuits are low power supervisory devic es used to monitor power supplies They perform a single function asserting a reset signal whenev er the Vcc supply voltage drops below a preset Figure 2 Logic Diagram STM809 810 STM809 810 b RST RsT Al07832 Note 1 For STM810 Figure 3 Logic Diagram STM811 812 MR d STM811 812 b RST RST l Al07831 Note 1 For STM812 Figure 6 Block Diagram COMPARE Note 1 STM811 812 only 2 RST for STM810 812 4 18 38 value and keeping it asserted until Vcc has risen above the preset threshold for a minimum period of time trec The STM811 812 also provide a push button reset input MR Table 2 Signal Names Active Low RESET Output RST Active High RESET Output MR Manual Reset Input Note 1 STM810 812 only 2 STM811 812 only Figure 4 SOT23 3 Connections ab L RST RST 32 cc For STM810 A107833 Figure 5 SOT143 4 Connections Ves D 4E3Voc RST RST 2 3H MR For STM812 Al07834 RST trec Generator Al07835 ES250PW High Performance 2 4 GHz Digital Wireless Audio Solution GENERAL DESCRIPTION The Squeak 1 5 WHAM2 Wireless HiFi Audio Module is a highly integrated module package that provides a complete solution for wireless audio Squeak 1 5 using the Micro Linear ML2724 radio transceiver front end and the XInC2 wireless processor is ideal for high performance wireles
36. W R505 503 U501 C505 psor 429 C506 C507 L502 10R 1 4W MO 1 100V LM5008 103 1080102204 470u l 22u VCC IN e 9 8 1 4 gt LN e 0UT 3 7V C501 T TA pagi C508 4Tu 100V 330K S 120R 1 470u ESCH CR C104 A pr poun P501 100nT 3 VCC IN R504 6 3 240R 1 JE R5025 mg 270K i OUT 3 3V 5 DO c Filename DC DC Rev Al Size A4 CH E Model No ES250PW 128 1 PAGE 1 12 C 0 Ol Drawn by HUAJIAN 46 2 CUSTOMER JBL O O S Date 2008 04 12 3 A B e D y C318 100P 1 R317 5K1 o ANA R319 U109 B 5K1 6 L 072 C311 YW 7 10 U109 C R332 PS WL IN R YMM e 36 A a e 220R LFE IN W IN WL IN R R320 R330 C320 C327 S SKI R3215 0332 OK 104z 100u ER o SKI 100P a WL IN RETURN WL IN RETURN EN ET E ii C2 C319 C322 C3285 22u 100P U109 D 104z 100u R333 WL IN L VEE e e 15V WL IN L 4 m 220R 5K1 0 Ee C310 R314 R300 WA EC Ou 100R 6K8 3 gt R W1 R IN gt AWA e e R322 U109 A R331 C304 OKT wee C331 TL 072 10K 220P t 5K1 100P R315 R301 AN AS 100R 6K8 gt L IN Ld LR IN C305 y vtt 220P 15V Filename Mix Rev Ai Size A4 E Model No ES25 PW 120 1 PAGE 3 7 12 L 09 Q Drawn by HUA
37. ce must be maintained or the music will not sound natural An experienced listener will set the volume of the subwoofer so its impact on bass response is always there but is never obtrusive Phase Control The Phase Switch G determines whether the subwoofer driver s piston like action moves in and out with the main speakers 0 or opposite the main speakers 180 Proper phase adjustment depends on several variables such as room size subwoofer placement and listener position Adjust the Phase Switch to maximize bass output at the listening position Crossover Adjustment The Crossover Adjustment Control determines the highest frequency at which the subwoofer reproduces sounds If your main speakers can comfortably reproduce some low frequency sounds set this control to a lower frequency setting between 50Hz and 100Hz This will concentrate the subwoofer s efforts on the ultradeep bass sounds required by today s films and music If you are using smaller bookshelf speakers that do not extend to the lower bass frequencies set the Crossover Adjustment Control to a higher setting between 120Hz and 150Hz NOTE This control will have no effect if the LFE Input is used wired connection or if the Low Pass Selector is in the OFF position wireless connection If you have a Dolby Digital or DTS processor receiver the low pass frequency is set by the processor receiver Consult your owner s manual to learn how to view or
38. change this setting ID Codes In the unlikely event that you experience interference when operating the system or if you have more than one set of subwoofer transmitters and receivers in operation you may change the channel in which the system operates On the transmitter module and the subwoofer there is a four position ID Code Selector and Simply set the selectors to one of the other positions The transmitter and subwoofer and O selectors must be set to the same position for the system to function correctly You can also set up a maximum of two subwoofers to be receiving from the same transmitter by setting the channel selector on the transmitter and both of the subwoofers to the same channel A Word About Wireless Products The JBL ES150PW and ES250PW wireless subwoofers utilize advanced wireless transceivers operating in the 2 4GHz frequency band This is the same frequency band that is used for wireless home networks and high quality cordless phones It also allows for the transmission of high performance full spectrum sound to remote locations wirelessly Like all wireless devices the JBL wireless subwoofer s operating range may vary depending upon variables such as building construction methods and materials atmospheric conditions and other sources of interference Please consult your JBL dealer or distributor or visit www jbl com for further information or assistance Wall Mounting the Transmitter Module N
39. cted to the inverting input of the internal regulation comparator The regulation threshold is 2 5V A resistor between this pin and Vin sets the switch on time as a function of Vin The minimum recommended on time is 400ns at the maximum input voltage This pin can be used for remote shutdown Output from the internal high voltage series pass regulator Regulated at 7 0V If an auxiliary voltage is available to raise the voltage on this pin above the regulation setpoint 7V the internal series pass regulator will shutdown reducing the IC power dissipation Do not exceed 14V This voltage provides gate drive power for the internal Buck switch An internal diode is provided between this pin and the BST pin A local 0 1uF decoupling capacitor is recommended Series pass regulator is current limited to 10mA 8 VIN Input voltage Recommended operating range 9 5V to 95V LM5008 9 5 95V C1 SHUTDOWN Typical Application Circuit and Block Diagram LM5008 7V SERIES REGULATOR OVER VOLTAGE COMPARATOR 300 ns MIN OFF TIMER COMPLETE FB COMPLETE Ra START CURRENT LIMIT OFF TIMER 31 20097901 ES250PW Philips Semiconductors Product specification 8 bit parallel in serial out shift register 74HC HCT165 FEATURES e Asynchronous 8 bit parallel load e Synchronous serial input Output capability standard e Icc category MSI GENERAL DESCRIPTION The
40. eft Analog Output Serial Clock De emphasis SCLK DEM1 3 144 VA Analog Power Left Right Clock LRCK 4 13 AGND Analog Ground Master Clock MCLK 5 12 AOUTR Right Analog Output Digital Interface Format DIF1 6 11 REF GND Reference Ground Digital Interface Format DIFO 7 10 VO Quiescent Voltage De emphasis DEMO 8 9 FILT Positive Voltage Reference RST 1 Reset nput The device enters a low power mode and all internal state machines are reset to the default settings when low RST should be held low during power up until the power supply master and left right clocks are stable SDATA 2 Serial Audio Data nput Two s complement MSB first serial data is input on this pin The data is clocked into SDATA via the serial clock and the channel is determined by the Left Right clock The required relationship between the Left Right clock serial clock and serial data is defined by the DIF1 0 pins The options are detailed in Figures 16 19 SCLK 3 Serial Clock Input Clocks the individual bits of the serial data into the SDATA pin The required relationship between the Left Right clock serial clock and serial data is defined by the DIF1 0 pins The options are detailed in Figures 16 19 The CS4340 supports both internal and external serial clock generation modes Internal SCLK mode is used to gain access to extra de emphasis modes Internal Serial Clock Mode In the Internal Serial Clock Mode the serial clock is internally derived and synchrono
41. enna 10 is extended upward 3 Set the ID code on the transmitter and subwoofer e and O to the same position as described on page 6 When connected properly the LED on the top of the subwoofer will be orange 4 Set the Low Pass Selector to the Off position NOTES You may also connect a variable full range output from an A V receiver or processor such as a preamp output or second room output In this case set the Low Pass Selector to the On position and set the crossover adjustment as described on page 6 Some receivers have two subwoofer outputs In that case use either connector Connecting the Subwoofer for Wired Applications If you have a Dolby Digital or DTS receiver processor with a low frequency effects LFE or subwoofer output SUBWOOFER OR LFE OUTPUT Crossover Hz 50Hz 150Hz Wireless a ID Code Ch a n ot On Low Pass LFE Line In If your receiver processor does not contain a Dolby Digital or DTS processor but has subwoofer outputs RECEIVER PROCESSOR SUB OUT Qu O Level Crossover Hz 50Hz 150Hz Wireless n Deye M EH LE Off On Low Pass R LFE L Sub In Q Q Line In NOTE If your receiver processor has only one sub out you may use either the L or R input ES250PW OPERATION Power On Connect your signal source such
42. f the LED on the transmitter is blinking in green and the LED on the subwoofer is in red or green a wireless link has not been established between the transmitter and the subwoofer If connecting directly to the subwoofer without using the wireless link the Status LED on the subwoofer should be lit green If the LED on the subwoofer remains red check that the RCA cable from the source to subwoofer wired connection or transmitter wireless connection is functioning properly and that it is fully inserted at both ends or that the Transmitter ID Code Selector and the Subwoofer ID Code Selector G are set to the same channel Once you have a green or orange LED on the subwoofer turn your Subwoofer Level Control up halfway so that the knob indicator points up You should now be hearing bass information coming from the subwoofer Adjust Level Set the overall volume control of the preamplifier or stereo to a comfortable level Adjust the Subwoofer Level Control until you obtain a pleasing blend of bass Bass response should not overpower the room but rather be adjusted so there is a harmonious blend across the entire musical range Many users have a tendency to set the subwoofer volume too loud adhering to the belief 8 that a subwoofer is there to produce lots of bass This is not entirely true A subwoofer is there to enhance bass extending the response of the entire system so the bass can be felt as well as heard However overall balan
43. he wireless sub GREEN SOLID Transmitter is on and has already established a link with the wireless sub The transmitter will automatically enter Standby mode after approximately 10 minutes when no signal is detected from your system Subwoofer With the Power Switch in the On position the Status LED on the back panel will remain lit to indicate the On Standby mode of the subwoofer RED STANDBY No signal detected amp off GREEN SUB ON Wired signal detected amp on ORANGE SUB ON Wireless link with transmitter active The subwoofer will automatically enter Standby mode after approximately 10 minutes when no signal is detected from your system The subwoofer will then power on instantly when a signal is detected During periods of normal use the Power Switch can be left on You may turn off the Power Switch for extended periods of nonoperation e g when you are away on vacation Getting Started Confirm that the Status LED on the transmitter is on red or green the Status LED on the subwoofer is on red orange or green and an RCA cable is connected from a source unit to either the LEE Input of the subwoofer or transmitter or L and R inputs on the subwoofer Play a CD or video Use a selection that has ample bass information If using a wireless connection the Status LED on the transmitter should be lit in solid green and the Status LED on the subwoofer should turn orange if connected wirelessly I
44. icient operation Precision internal reference Low bias current Intelligent current limit protection Thermal shutdown Non Isolated Telecommunication Buck Regulator Secondary High Voltage Post Regulator 42V Automotive Systems MSOP 8 LLP 8 4mm x 4mm 20097902 Order Number Package Type NSC Package Drawing Supplied As LM5008MM MSOP 8 MUAO8A 1000 Units on Tape and Reel LM5008SD LLP 8 SDCO8A 1000 Units on Tape and Reel 2004 National Semiconductor Corporation DS200979 30 www national com e co JoyejnBay Buryoums umog deis A001 abeyon UBIH 800SIN ES250PW EN Pin Description 7 NAME DESCRIPTION 800SIN APPLICATION INFORMATION 1 SW Switching Node Power switching node Connect to the output inductor re circulating diode and bootstrap capacitor 2 BST Boost Pin Boot strap capacitor input Current Limit OFF time set pin Toff 105 0 285 FB 6 35 x 107 x Ra An external capacitor is required between the BST and the SW pins A 0 01uF ceramic capacitor is recommended An internal diode charges the capacitor from Voc A resistor between this pin and RTN sets the off time when current limit is detected The off time is preset to 35us if FB OV Ground pin Ground for the entire circuit 6 Ron SD Feedback input from Regulated Output On time set pin Ton 1 25 x 10719 Ron Vin This pin is conne
45. in 22 is serial digital data I O port pin SDIOO Pin 23 is Serial digital audio clock SCLK Table 8 WHAM2 RX Jumper Configurations 42 ES250PW Integrated Circuit Diagrams TLO72 DUAL OP AMP QUAD OPAMP IC1 U101 103 105 108 109 14P DIL TLO74 LM324 U102 106 107 OUTPUT A A INPUT B OUTPUT EE INPUTA V V B INPUT HNPUT E INPUT B MMBT3906 OUTPUT B MMBT1015 MMBT1815 2SC4672K MPT3 2N5401 Sein RA Q6B 108 MOSFET IRF640 9640 2SA1514K gt Q10 10B 11 Q1 2 3 4 5B 7 8 9 3 Collector Q101 103 400 403 L Base SOT23 gt use 1 Emitt 3 Collector T 3 e FET J111 PREFIX MAY BE FMMT Q1 07 2N5551 4 G 1 DRAIN TLA31 P id 00109 5 Top view athode H oae 3 BE va 3 Collector GATE T 0 L 2 SOURCE la 1 Emitter 3 1 23 2SA1015 HSD669A HSB649A 2801815 Q111 113 115 Q116 118 Q110 112 114 117 NS R H 2 Collector Q QS 3 2 Collector Base 3 1 a y 1 Emitter 1 Emitter Base 1 2 Collector 14 HES 3 Base S 43 UBL ES250PW E EMC BD IAS NUI T3 15AL 258U eee oe ca3 l pone n AC INNET 120U 68Hz Y YO YO Int A lt 6 RED EE l BROWN m SOguH 8 33uF 18mH 8 33uF RED To
46. log Input 2 PIO General Purpose IO port PIO HW amp FW default BB1CLK or Baseband Unit1 Clock AN1 or XInC2 ADC Analog Input 1 PI1 PIT General Purpose IO PI BB10 or Baseband Unit1 Output LRCK LRCK or Left Right Clock LRCK EN mo LN General Purpose IO PI2 HW amp FW default EN Baseband Unit1 Input AGND aa Analog Ground EN AOUTR Audio line out for Right Channel AOUTR SDIOO SDIOO or Serial DASI Data input output SDIOO AOUTL AOUTL Audio line out for Left Channel AOUTL BCLK BCLK or Serial DASI Bit Clock output BCLK AGND AGND Analog Ground AVDD AVDD no connect Analog Power Input Table 6 WHAM2 RX Pinouts 40 ES250PW 1 4 ADVANCED PINOUT CONFIGURATION The WHAM2 pinout can be configured differently than above for certain applications This customization can be performed at the time of production or during product assembly The following two diagrams and two tables describe how to configure the WHAM2 for different operations by changing jumpers and components on the modules themselves 18 g 5 een C38 repr K vi VIF DE a i2 FB E E alli T HHIH Figure 1 WHAM2 Transmitter DM Layout www ElevenEngineering ng com y E Jan R4 E SES 15 EL C20 E Elma L2 A EE E TE SE E H e 25 V3 4 ME Figure 2 WHAM2 Receiver DM Layout 41 ES250PW WHAM2 RX Jumpers and Options Pin Name Edge pin 16 Edge pin 17 Edge pin 18
47. nctional which can be selected via a rear panel switch channel should match ID at Tx side LED indicator Indicator functional RED Standby GRN Active ORG Wireless link and subwoofer are active RENEE E Input Configuration Line in L A amp LEE functional n RCA Jacks RED WHT Left and Right and Purple for LFE Z PORAZ TEZIE OE Signal Sensing TO A gt gt gt p ATO Input test frequency 50 HR functional ATO Line levelinput 15 mv __ functional 1 Maxiumacceptableleve ES250PW PERM AT A Limits ATO Turn on time 5 ms functional pimp connected and BS then input signal applied Auto Mute Turn OFF Time 5 15 minutas 5 15 T before muting after signal is Auto turn of time T mustbe 5 gt T lt 15 removed Minutes PEA De A POS AI AC Power Applied AAA O AAA Transients Pops Jo Ir EA xo nan 05 vpex osv le Speaker Outpt SE by signal presence at the um on Transient 08 Vipeak osv je Speaker Output AC Line cycled from OFF to ON G fe Speaker oupi ___ Output AC Line Eaton A from ON to OFF do conducted at rated power iciency 200W Nominal Line voltage Efficiency 1 8 of rated power S Test conducted at 31 25 WRMS Pais Ge Input Power 1 8 of rated power Test conducted at31 25WRMS Input current 1 8 of rated power Test conducted at 31 25 WRMS Standby Input power Nominal Line voltage RED LED Nominal allowable input power under Idle input
48. nisms due to resistor matching errors no linearity drift over time and temperature and a high tolerance to clock jitter The CS4340 accepts data at audio sample rates from 2 kHz to 100 kHz consumes very little power and oper ates over a wide power supply range The features of the CS4340 are ideal for DVD players CD players set top box and automotive systems ORDERING INFORMATION CS4340 KS 16 pin SOIC 10 to 70 C CS4340 BS 16 pin SOIC 40 to 85 C CDB4340 Evaluation Board MUTEC External De emph Cr emphasis Mute Control Interpolation j Se al TTL Ee i Er ECKER ER Lack LI wl Interface Interpolation i Fitter o PAZ DAC K Analog Filter gt AOUTR SDATA y gt A A DIFO DEI MCLK Preliminary Product Information 33 CIRRUS LOGIC P O Box 17847 Austin Texas 78760 512 445 7222 FAX 512 445 7581 htip www cirrus com This document contains information for a new product Cirrus Logic reserves the right to modify this product without notice Copyright O Cirrus Logic Inc 2000 NOV 00 All Rights Reserved DERE d DS297PP3 35 ES250PW AD A EE aD a ae IN AD 1 AD 1 Z CS4340 3 PIN DESCRIPTION Reset RST 10 16 MUTEC Mute Control Serial Data SDATA 2 15 AOUTL L
49. o yes to 15 Vcc etc Check Ui06 Q1o7ect y Check pre board amp power board CP Vcc 15V ect Check U103 Q101 Oo Ca Ru AC y cord Transformer Listening test no yes The Amp ass y ok END 14 ES250PW Transmitter Troubleshooting Flow Chart AMP no signal out no yes gt Check D1 L01 D05 Q04 DO 3 003 Q01 Q02 etc check VD 17VDC MEME yes yes no Check Q06 Q05 et Check VA 15VDC TP cele Qua QU ee yes Em Check 12VDC 3 6VDC PO Check Q07 D08 U01 D10 U02ete yes Vv d Check U05 U06 U08 Q11 re LED light green or red p Q12 U03 U04 etc LED light green yes no Check MD01 AINL AINR signal gt CheckU07 U05 U06 etc yes yes Check MD01WH4924 no Check LAUNCHER signal yes OK END ES250PW Wireless Receiver board Troubleshooting Flow Chart AMP no signal out no yes Check R505 U501 D501 L5 lt 01 L502 U01 etc Check 3 7VDC yes yes DO Check U04 U02 U03 etc Check MD01 LRCK signal yes yes Check MD01 RX 11G no Check LAUNCHER signal yes OK END ES250PW a ata 28868E20 8
50. oint to point uiring M R25 R26 e A L2 AA 4 l NN pLCACNCN S OUT VO LUF 10 Bjr Don Dip e MR 20K ECHT 35uh n Di e 2881514 2 2 2 2 EMI 3 S 3 o D2 i K i 3 AN lt AN AN c9Lol0 L M o Nx ICIA 478 RLS4148 2 9 2 2K x enn SG FOTO He o nr C2 TLO72N S P nab C8 R27 470 d E E E Mi 18 cA 9 l ps mm i i WER R15 N CN In 10uF 188U NP 71850 MUTE IN P28 39K BI 2sc24 fk GE M fe RLS4148 ai we yi IRF64QN RLS4148 4 7K gt S Ws es R29 SE He R16 m B LUF 2 luF 188U E c o g 10K C3 Z 1gy 22 2K Ge elie luF 9 N LG szy Na ZA DZD12 TB 18K c 2 7K Re 7 E ciaL R31 R32 R33 R34 zu fua s tu 2 2K 2 2K 2 2K7 2 2K NAME PWAZCDPWA 11 12 IC18 Ww 24 3 3 cwm 22 DZD5 6 TB ba TLOTZN C6 DZDi5 TB MODEL ES2582PU 12QJREV A1 A l CUSTOMER JBL DZD5 6 TB 10K 562pF 4 USI ER DATE 2008 04 12 APPROVE BY CHECK BY DRAWING BY 55
51. power Watts nom line voltage nominal Input voltage and frequency HOT or COLD operation LED GREEN no signal appre Power Cons Gi aki power 308 f Wais 21 nom Ine votage Eno Watts 4 Ohms nomina ine vorage S CERE Short Circuit Protection functional Direct short at output S oe Should resume operationafter short circuit condition removal Temperature rise in accessible metal parts A 1 8 max unclipped Power at should not exceed 35K rise for domestic Thermal Protection functional R f 1 06 times the input voltage version or 30K rise for European versions refer to requirements sheet dE must insure no Offset DC Voltage at DC Offset Protection DC present at Speaker Out leads the speaker output under any operating 25 condon ncrucing abnormal operation abnormal operation Line Fuse Rating T J xx Domestic sp lE ype T or Slo Blo 250 V Ton OR TN dde fuse with UL SEMKO rated holder Type T or Slo Blo 250 V Low uer cy um ee A EEN E SYSTEM PERFORMANCE USING WIRELESS TRANSMITTER Tx W cz 7 DEER ES THD 1 Watt 22K filter PO AAA T ET EN Tx Input Impedance A E A E EEN Line Input LFE Nominal 1KHz et pul cepe cu Nj DECKEN EE pe EA System Sensitivity ER Gs rid fre Watt Sistema using T asl a a AS A A ee nl A a n A cea EEN System filter None E EEN not have any effect on y of the e A Refer to AP Ee Grapa Tinka dynamike Input Limi
52. put is 5 0V 4 Sweep generator from 20Hz to 1kHz Listen to driver for any rubbing buzzing or other unusual noises 12 ES250PW Ant WV Wireless PCB wireless signal input Phase control Lp LFE switch 12 288MHz 4 S e amp PCB j A To power amp protection Local input C w U101 ai Euros Volume control VR1 P105 Filter U105 signal input To power amp mute protection P112 ann 15 Power regulator o To speaker circuit 15V inp nod signal inpu 13 Amp model Transformer ES250PW Start ES250PW Testing How Chart De voltage check ee Vcc 15V E no Check transformer C168 C169 D123 Di24 C170 yes Power on check LED red amp green no Check vol module amp connector cable amp 15V etc yes Test frequency Response no Check Utioz uRis5 C121 R135 C122 ect yes Test frequency Response no Check U105 C137C137CC143ect yes Test input sensitivity no Check U1o1 R117 R112 R114 etc yes Test protection no yes Check Uz Raa Test limiter circuit no yes Check THD output power noise no yes Auto off Function Hi pot test n
53. s audio applications such as home theater stereo and outdoor speakers and microphones Squeak 1 5 is available in either a 25 or 50 meter indoor range WHAM2 module The WHAM2 digitizes a 2 channel stereo input signal sends it across a robust 2 4 GHz radio frequency link and converts the signal back to a stereo analog signal for use at a remote location WHAM2 is also available with a Digital Audio Serial Interface DASI port that can be configured to interface with any SPI supporting device PS left or right justified including ADCs DACs digital audio streams such as S P DIF or USB A development kit is required to modify the DASI port and or to modify application source code firmware BLOCK DIAGRAM Squeak 1 5 WHAM2 TX Digital 1 0 Jumper FEATURES e Analog or Digital Audio Input Output e 48 kHz 16 bit digital stereo audio transmission e Digital volume control manual mute e Auto mute when signal lost digital noise gate e 24GHz wireless at 1 536 Mbps e Robust Quality of Service QoS e Advanced error protection protocols with hardware forward error correction adaptive frequency hopping and walking frequency diversity e 250r50 meter indoor range e Up to 6transmitters in specified range area e Low latency firmware selectable 15 64 ms e Duplex utility control channel at 1 5 kbps e Programmable for custom features with development kit ORDERING INFORMATION 25 meter 50 meter
54. ter dynamic range Maximum input voltage the Tx line input can take without ER functional exceeding 1 of THD at the Max input voltage Tx front end can handle output of the sub amp without exceeding 1 THD rr __ EE H A Se momen eee 5 AR ATO Input test frequency 50 Hz functional ATO Level LFE Input 2 mV functional ES250PW AT AE Limits Auto Mute Turn OFF Time 5 min t s 5 15 T before muting after signal is Auto turn of time T must be 5 gt T lt 15 removed Minutes e gt Y Y PEER CREME EE E il A i ELE rre fil 0000000000 Single RCA Connector feee poston stent select wreless aane L voc Jee En requirements GPE 152 delivering 18VDC 400mA EE p t pp RED LED Tx Idle Power 120VAC line voltage zn operation Locked to Rx section Solid Tx Idle Power 120VAC line voltage Unit in operation NOT locked to Rx section l EE A eS eee eei oA ei ey Power supply adapter AA Est O ESA DEE gt GOLDEN PROFIT ELECTRONICS LTD GPE anutacturer mode eterence 152 180040W Output Voltage Nom line voltage MENS Max output current 04 ADC Reference ll Rating 72 J VA Reference 0 0 0 e AC input voltage range 100240 VAC Reference 1 1 1 jUnivesaltypepowersuppy AC input frequency 5060 Hz Reference LI Power supply weight 0246 Lbs Reference f12grams Detachable interchangeable via a AC power cord type n a Functional 2 Pole IEC
55. us with the master clock and left right clock The SCLK LRCK frequency ratio is either 32 48 or 64 depending upon the DIF 1 0 pins as shown in Figures 16 19 Opera tion in this mode is identical to operation with an external serial clock synchronized with LRCK External Serial Clock Mode The CS4340 will enter the External Serial Clock Mode whenever 16 low to high transitions are detected on the SCLK pin during any phase of the LRCK period The device will revert to Internal Serial Clock Mode if no low to high transitions are detected on the SCLK pin for 2 consecutive periods of LRCK 36 ES250PW STM809 STM810 ky STM811 STM812 Reset Circuit FEATURES SUMMARY m PRECISION MONITORING OF 3V 3 3V and Figure 1 Packages 5V SUPPLY VOLTAGES m TWO OUTPUT CONFIGURATIONS Push pull RST Output STM809 81 1 Push pull RST Output STM81 0 812 m 140ms RESET PULSE WIDTH MIN LOW SUPPLY CURRENT 6uA TYP m GUARANTEED RST RST ASSERTION DOWN TO Vcc 1 0V m OPERATING TEMPERATURE 40 C to 85 C Industrial Grade m LEAD FREE SMALL SOT23 and SOT143 PACKAGE SS SOT23 3 WX Table 1 Device Options Active Active Manual Low High RESET Package RESET RESET Input mae v ees SOT143 4 W1 smew EG men v v Senes STM812 be pow pou SOT143 4 November 2004 1 18 37 ES250PW STM809 810 811 812 SUMMARY DESCRIPTION The STM809 810 811 812 MICROPROCES
56. wer is measured by recording the highest center to peak voltage measured across the output of a resistive load equal to 43 Ib 19 5kg minimum impedance of the transducer using a 50Hz sine wave burst 3 cycles on 17 cycles off 1 Variable from 50Hz to 150Hz 24dB octave 19 3 4 x 15 3 4 x 17 7 8 502mm x 400mm x 454mm 3 3 4 x 4 7 8 x 3 15 16 95mm x 124mm x 100mm ES250PW En eR AAA Fi Ja ee LINE VOLTAGE Hi Lo Line Nom Unit Notes US 120vac 60Hz 108 132 Normal Operation EU 230vac 50 60Hz CR 207 253 pms eme ormai goeration NOMS rene MOMS required Limits Amp Section J 1 A l Type Class AB D other Dt a wa se Ey 4 Y a Rami I AVG System impedance __ 725 Ohms na APCompuedBW20to500Hz 1 1 Min System impedance 4385 Ohms wa Je QA Z3 A A2 Rated Output Power 120VAC 250 Watts 240 j Domesticversiononly 120 VAC 60 Average RMS power 3 20 Cycles 50 Hz d y 3 Driven 6dB above its input sensitivity AVG RMS Dynamic Power 336 Watts Reference 200mV driven into LFE input average of the RMS value for the first 4 consecutive peaks THD Rated Power 22K filter ERT THD 1 Watt 22K filter We RZ ZZ DC Offset Q Speaker Outputs AAA Damping factor Measured at amplifier board 90 Measured at the speaker cable 225 Watts H wg mi full power THD lt 0 1 50 Hz A EE Eege NAAA NEGO GENERE semen
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