F102 1/4 AMP +240 VDC SEE FIGURE 5-14 FILAMENT AND OVEN CKTS BLU J811 BREAK-IN TB103 TO S103 TRANSMITTER ASSOCIATED CAL OFF FUNCTION NOTE 2 STANDBY
Size: px
Start display at page:

Download "F102 1/4 AMP +240 VDC SEE FIGURE 5-14 FILAMENT AND OVEN CKTS BLU J811 BREAK-IN TB103 TO S103 TRANSMITTER ASSOCIATED CAL OFF FUNCTION NOTE 2 STANDBY"

Transcription

1 OWR OR F0 M NOT S0 RT OF FUNTI FL0 T0 OWR SULY SUSSIS T0 T0 WIR FOR 0 V OWR SULY SUSSIS T0 WIR FOR V 0 0 RT V0 RT V0. V RT V0 RT V0 NOT. V. V NOT +0 V 0 +0 V. V 0 FUNTI NOT L +0 V S FIUR - FILMNT N OVN TS F0 / M R-IN STNY LU STNY S0 YL R 0 0 V R0 YL. V T0 TO SSOIT S0 TRNSMITTR R-IN F0 / M 0 F SUSSIS +0 V NOT 0 R- IN RLY L0 FILTR 0 RF-IF + L0 FILTR L0 FILTR 0 F + + V V0 -, V0 -, V0 -, V0 -, R 0 R R FO S0 V0 -, V0 -, +0 V +0 V V0 -, V0 -, V0 -, V0 - V0 -, V0 -, V0 -, V0 - V0 - IF SUSSIS V0 - V0 - V0 - V0 -, V0 -, V0 - RF SUSSIS SWIT RF/IF + 0 L +0 V 0 L OS + +0 V +0 V +0 R RR S0 RF/IF + NOTS: R SORTIN +0 V RULT 0 VOLT RULTOR V0. F NS RTIFIRS V0 N V0 TO R0 N R0.. FUNTI SWIT S0 SOWN IN OSITI.. S TL - FOR LTRNT FUSS. V R, RFR TO I. V0 - RYSTL OS SUSSIS 0 +0 V 0 V R W Y RT V0 - VFO SUSSIS V ower istribution iagram (Figure -) Rev: 00-an-

2 RT OF T0 IF SUSSIS 0. ST IF ML V0 /W IF ML V0 /W TO TRMINL OF R-IN RLY 0. V M 0 TO NTN RLY 0. V. M OWR SULY SUSSIS R IF ML V0 /W FO V0 /W R URRNT RULTOR RT0 RT N IF TO FOLLOWR V0 YL RTIFIR RTIFIR V0 V0 ZW ZW NOT: V0 N V0 N TO SILI IOS IN FIL N., LIMITR V0 R N IF ML V0 /W T IF ML V0 TIM STNT N T V0, + LU R0 _ 0, 0 YL. V. V SWIT I0 I0 IL LITS #. V S0 OVNS. V R. 0 F RF ML V0 L0 L0 ST MIXR V0 0 U 0 U N MIXR V0 ST RYSTL OS V0 /W 0 L 0. 0 U F SUSSIS L0 0 U L0 0 U RT OF RYSTL OVN R0 W ST F ML N F TO FOLLOWR V0 F OUTUT V0, R L0 0 U L0 0 U LOL F OUTUT V0 LOL F ML N F ML V0 R MIXR V0 00 Z MULTIVIRTOR V0 L OS N 00 Z TO FOLLOWR V0,, RF SUSSIS, VFO V0 /W 000 VFO SUSSIS L0 0 U 000. V SWIT. V 0 RYSTL OSILLTOR SUSSIS 0 L0 0 U 000 nd RYSTL OS V0 /W L0. U RT OF OVN R0 W 000 S0 W Y RT 0 0 F RT OF OVN R0 S0 Filament and Oven ircuits (Figure -) Rev: 00-an-

3 V0 SORTIN LU TO S0- FIL N NO. SURSSOR RI NT TO TO OM LN 0 0 TO S0- T0 T T0 R 00 R 00 R 00 R 00 R 0 WI UNLN 0 I0 R FIL N NO. (I ) NTNN INUT MOIFI SIOR INSTLLTIS - US 0 S NTNN INUT. RVRS LS TO 0 N 0 TO S0- T0 0 FIL N NO. VRSI TO 0 OM SUNT LO FL0 FIL N NO. (I 0) VRSI TO N TY NTORS T0 TO - VFO (V0) ST RYSTL OS (V0) T0 0 IO LO FIL N NO. (I ) ROVIS NL IO TST 0 R0 N R0 N TO - FIL N NO. (I 0) VRSI TO SILI IOS R0 0, 000 FIL N NO. VRSI OF R0 N R0 R0 0 TO FL0 T0 T0 TO FL0 T0 T0 LS TIM INITOR LS TIM INITOR NOT: TIS WIR MOV FROM T0- TO T0- NOT: TIS WIR MOV FROM T0- TO T0- TO S0- TO S0- WIR FOR V WIR FOR 0 V FIL N NO. ROVIS LS TIM INITOR Field hanges (Figure -) Rev: //

4 RF SUSSIS MYL N N / OR ILOYL N MYL N LN NTNN ( OM) 0. TO S0. TO TO T0 T0 0 0 S0 0. TO 0 RF ML V0 TO MIXR STS Fig. - UNLN NTNN (WI) TO TO T0 T0 00 Z & RMIS 0 0 FUNTI S0 STY, L,,, M. V R0 S Fig. - S0 TO TO T0 T0 S NOT 0 NT TRIM S0 T0 RF IN R0 TO IS TO - Fig. -. V 0 R-IN TO SSOIT XMTR T0 S0 NOTS:. rimary trimmers 0, 0, 0,,, and. Secondary trimmers 0, 0, 0,,, and. 0 L LIRTI OS V0 (/) 00 Z MULTIVIRTOR V Z T FOL V0 (/) + 0 W Y RT 0 FUNTI S0 RR RF IN L + Signal Flow iagram (Figure -) Sheet of (RF ST) Rev: 0//00

5 RF SUSSIS MYL N N OINT L0 VFO SUSSIS T0, 0 L MYL N N / OR ILOYL N VFO V0 /W. TO. Z0. TO. rd MIXR V0 T0 Z TO IF STS Fig TO TO FROM RF ST Fig - S0 Z0- Z0- Z0- Z0- Z0- Z0- Z0- Z0- TO TO TO TO S0 0. TO 0 T0 st MIXR V0 L0 -,, Z-,,. TO TO TO S0 Z-,,. TO OR TO 0 T0 nd MIXR V0 -,, L0 XTL OS SUSSIS Z0- Z0- Z0- Z0- TO Y0 st XTL OS V0 /W S S0 TO IN STS nd XTL OS V0 /W LT IRUIT TRIMMRS -, 0-, and - Y0-Y TRIMMRS 0-, -, -, -, -, and - TRIMMRS 0-, -, -, -, -, N - S0 RR V R S0 0 W Y RT Signal Flow iagram (Figure -) Sheet of (MIXR STS) Rev: 0//00

6 From Mixer Stages Fig. - From Fig. - Z0 0 L0 S0 R0 0 TO IS RT V0 (/) TIM STNT V0 (/) M SLOW 0 FST., S0 NWIT st IF ML V0 /W, S0 Z L Z0 IF M V0 /W TO V0 - V0 & V0 - V0 MNIL FILTRS FL0 Z FL0 Z FL0 Z FL0 Z IF T FOLLOWR V0 (/) IF OUTUT 0 OM RR-MTR UST. S0 W Y RT nd IF ML V0 /W L0 L0 T0 Z Signal Flow iagram (Figure -) Sheet of Rev: 0/0/00 rd IF ML V0 /W (IF STS) L0 L T0 Z th IF ML V0 R, TTOR V0 (/),, T0 TT UIO L0 TO Z L L Z TO Z, Z0 FO V0 /W LIMITR V0 FUNTI S0 STNY, M R0 T0 NOR IV M0 RRIR LVL + _ 0 IO LO IO LO T0,, R R0, S0 L0 S,, IN IF SUSSIS FO IT S0 FO LIMITR SWIT + TO UIO STS Fig. -

7 F SUSSIS FROM IF STS Fig st F ML V0 (/) F M V0 (/) F OUTUT V0 T VU M0 LVL T0 0 UIO +0/0/-0 00 Z FILTR SR FL0 WI S0 SUNTS N IVIRS MTR S0 0 0 UIO RSS F T FOLLOWR V0 (/) LOL F M V0 (/) LOL F OUTUT V0 T0 R0 T0 LOL UIO NS IN W Y RT 0 S R0 R0 LOL IN 0 R-IN RLY Fig - R0 Signal Flow iagram (Figure -) Sheet of (UIO STS) Rev: 0//00

8 RF SUSSIS 0.- T0 0. TO MYL N N/OR ILOYL N NOT MYL N NOT OM LN NTNN WI UNLN NOTS: 0 0 I0 0 0 TO R0 Sheet TO R0 Sheet NOT R R LU 0 0. NTNN, RF, N VRIL IF OILS R TUN S FOLLOWS: TINUOUSLY WIT ILOYL N: LL OILS. INTRMITTNTLY WIT MYL N: T0 TRU T0, Z0- TRU Z0-, Z0- TRU Z0-, & Z- TRU Z-.. SMTI SOWN WIT MYL N ST FOR T 0. TO N.. RFR TO TL -, ROUTI MOS.. RFR TO TL -, FIL N T, N FIUR -.. RFR TO TL - FOR FUS T.. = INTRSSIS N. = INTRSSIS N. S0 S L 0-0 L 0-0 L - L - L0 - L T0 T0 T0 T0 T0 L L L L L 0-0 TO 0-0 TO L 0-0 TO - TO - TO R.M 000 R0 0 NT TRIM S0 S0 S0 N MIXR Sheet S0 RR - S0 RR - W Y RT NOT R Z MRRS TO LIRTI OSILLTOR Sheet NOT NOT R T0- Sheet TO st MIXR Sheet RF MLIFIR V0 R0 000 R0 0 SWIT RF-IF + Sheet Schematic (Figure -) Sheet of Rev: 00-an- TO IS +0 V

9 S0 FROM RF MLIFIR ST Sheet RF SUSSIS 0. TO TO TO TO TO TO L- L- L- L- L- L Z0- Z0- Z (00) NOT Sheet L- L- L- Z0- Z0- Z L- L- L Z (00) NOT Sheet Z0- Z0- Z0- Z0- Z TO TO TO 0. TO TO TO S0 000 MYL N NOT, Sheet 0 R M R Y RT OF R0 ST MIXR V0 R0 000 R0 0 R0. R0. L 0 00 MYL N N/OR ILOYL N NOT, Sheet NOT, Sheet T L0 R., S0 +0 V 00 L0 0. M ST RYSTL OSILLTOR V0 /W R. Z- - - Z- - - Z- - - S0 RR (.0) NOT, Fig. - R0 (0) Note, Fig L- L- L- SWIT RF-IF + F Sheet OUTUT TO N MIXR Sheet RULT +0 V Sheet RF-IF + Sheet +0 V W RF MLIFIR Sheet L0 0. M N MIXR Sheet W Y RT Schematic (Figure -) Sheet of Rev: 00-an-

10 FROM ST MIXR ST Sheet R F 0 0. ST MIXR Sheet SWIT RF-IF + Sheet SWIT RF-IF + Sheet T0- Sheet SWIT RF-IF N + - Sheet 0 0. L 0 U 0 R NOT, Sheet 0 F 0 RF SUSSIS W R M R0 Y0 00 Z RT OF RYSTL OVN R0. V Sheet L0 0. M R0 0 N MIXR V0 R R. R R R 0 LIRTI OSILLTOR V0 (/) R. R 0 R 00 R Z MULTIVIRTOR V0 TO RF M Sheet R M 0 R Z- - - Z- - - Z Z MRRS R L L L L 0. M Z TO FOLLOWR V0 (/) L0 0. U R +0 V 0 0 ILOYL N NOT, Sheet VFO SUSSIS 000 L OSILLTOR + S0 - (R) M Sheet R0 R MIXR V0 R. N OINT L0 L0 W TO N RYSTL OS SUSSIS Sheet OVN R L0. U S0 000 R. 0 SL UNIT V OVN Sheet U R0 0 0 L VFO V0 /W F T L SR R0. R0 (0) F NO. NOT RULT +0 V Sheet V 0 0 RF-IF + Sheet Z0 T0 TO IF SUSSIS Sheet F TO IF SUSSIS Sheet R Schematic (Figure -0) Sheet of Rev: 00-an- 0 0 W Y RT

11 RYSTL OSILLTOR SUSSIS MYL N NOT, Sheet Y0 Y Y 0 Y. Y 0 0 Y. Y0 Y0 Y0 Y0 Y0 Y Y0. Y0. 0. Y0. 0 R S R N RYSTL OSILLTOR V0 /W, L0 0. M R0 L0 R0. T R L S F - 0F - F S V F W Y RT. V OVN Sheet V RULT +0 V Sheet RF-IF + Sheet RYSTL OSILLTOR OUTUT TO N MIXR Sheet Schematic (Figure -) Sheet of Rev: 00-an-

12 F FROM RF SUSSIS Y0 Z R 0 S0 SLOW M 0 FST - Y ST R0 TIM STNT V0 (/). 0. R STY NWIT Z0 S0 R0/R0 SLT FOR OTIMUM NSS L R0 R.M R M STY.0 R0 R0 000 (0) NOT, Sheet R 0 S0 L R L0 00 U 0 RTIFIR V0 (/) S0 L0 M ST IF M V0 /W R R0 0.0 R. 000 R R 0 S0 RR 0 NOT 0 NOT 0 NOT 0 NOT R 0 FL0 FL0 FL0 FL0 SWIT RF/IF + TO IS Z0 L IF M V0 / W R0 M S0 NOT NOT NOT NOT MNIL FILTRS NOT R R0.0 R 0 R S0 RR IF TO FOLLOWR V0 (/) L0 0 U R 00 T IF M V0 0. R IF M N IF M V0 V0 /W /W T0 L0 R R 000 R. 000 R R. R FO.- NUTRLIZIN R 0 RR-MTR UST L W R 00 R.0 T0 R L L0 R 0 0 L0 M 000 R0.0 R TTOR V0 (/) R 00 IN R. W R R 0. R0 000 R 0 00 R0 R FO V0 / W 00 R R 0 LIMITR V0 (/) M0 RRIR 0 LVL - + R0 FUNTI T0 IV NOR RF IN SOWN IN OSITI +0 TO IS 0- ST R 0 0 MF R0 RF IN + 0- ST IF OUTUT 0 OM +0 L OSILLTOR + M ST T - ST RULT +0 V ST L L STY S0 RR +0 SWIT RF/ IF + N ST RF/IF + ST +0 R SORTIN ST X +0 FO S0 0 IO LO ( NL) F NO. NOT To -0- F Subchassis, Sheet T0 0 R 0 IO LO N S0 L0 000 R. 0 0 R 0, IF SUSSIS T0 Z0 L L0 00 FO IT R 0 R LIMITR V0 (/) L0 TO 0- F SUSSIS ST S LIMITR R R0 00 W W Y RT Schematic (Figure -) Sheet of Rev: 00-Feb-

13 FROM IF SUSSIS - S ST SR UIO RSS SOWN IN WI OSITI S0 WI 0 0 F SUSSIS R0 0 NOT R0 0 0 MF R0.M R0 00 ST F M V0 (/) R0 R0. R 0 R0 0 + LOL F M V0 (/) R R 0 F NO. NOT R 0 LOL F OUTUT V0 R 0 R T0 0: R0. R0 0 0 S F NO. S NOT T0 0 LOL UIO 0 F NO. NOT NS R0. R0. IN LOL IN FL0 IN OUT 00 Z NSS FILTR R0 0 R0 0 R MF 0 MF + + F TO FOLLOWR V0 (/) 0 R-IN RLY F M V0 (/) R0 0 R 0 R 0 R R 0 F OUTUT V0 R 0 R T0 0: R 00 MTR R 0 R SOWN IN OSITI -0 R0 0 0 R 00 R 00 F NO. : S NOT R0 0 S0 R0 R0 0 R 0 R 00 R 00 R0 0 VU T0 0 M0 LVL UIO 0 0 F NO. NOT T FROM S0R- ST FROM T0- ST 0 0 Spare F + ST Z W Y RT Schematic (Figure -) Sheet of Rev: 00-Feb-

14 OWR OR FL0 L0 0 L0 0 LS TIM MTR 0 0 T0 F0 S NOT M STNY,, M,L F NO. : S NOT T F NO. : S NOT FL0 L0 L0 N 0 0 TO T0 VI /0 WIR FOR 0 V WIR FOR V T0 V0, V0, V MS L0 0 U L0 0 U V. MS 0 V L0 0 U L0 0 U V L0 0 U L0 0 U V0 V0 V0, 0 V 0. M, R0 N,, RT OF RF SUSSIS IL LMS # SR RTIFIR V0 ZW RTIFIR V0 ZW I0 I0 R F0 + / M R0 N OWR SULY SUSSIS T0. V RT OF FUNTI F NO. : ST S NOT SWIT S0 +0 S0 R IN URRNT RULTOR V0 RT0 V0 V OM RFR TO I 0 R-IN RLY V0 V0 V0 V0 V0 V0 V0 V0 V0 L MF R. R RT OF IF SUSSIS RT OF F SUSSIS V0 0 MF R. L0 L0 0 MF L0 0 U V0 000 RT OF VFO SUSSIS UIO MUT 0- ST +0 R V F + ST Z W Y RT OVNS S0 YL L0 0 U V0 000 RT OF RYSTL OSILLTOR SUSSIS VOLT R V0 0,, F0 R0 + / M + - LU R YL. V OVN S ST R SORTIN ST RULT +0 V ST ST ST ST RF-IF + S ST W ST ST S0F-, ST NT RLY ST NT RLY ST ST Y L ST Schematic (Figure -) Sheet of Rev: 00-ul-0 U V X

15 WT-L-R-RN WT-L-R-LU WT-RN-LU WT-LU WT-R WT-L WT-L-OR WT-L-OR WT-RN-LU 0 WT-L WT-L-LU WT-OR WT 0 - M0- S0- MTR R0- + L R WT-L YL RN RN 0 S0-UIO RS WT-L-R-LU WT-L-LU WT-L-R-RN 0 WT-RN-LU WT-L-OR WT-RN-LU WT-R-LU WT-L-R WT-R WT-RN R0 R0 R0 R R R R0 R R T0 S0-FO WT-L WT-L WT WT-LU 0- S R0- LOL WT WT WT-RN 0 WT-R-RN WT-L-LU WT-R 0 YL 0 RN 0 R WT-OR WT,,,, WT S NOTS, WT-R-RN () WT-R WT-RN-R WT-RN-R 0 WT-RN-R WT-RN-R WT-RN WT-L-R 0 WT-L WT-RN 0 RN 0-F 0 L WT 0 WT-L-OR OR WT-R-OR-LU WT-RN-LU () WT-R WT-RN -F WT-R-LU WT-L WT-L WT-L-R-OR WT-RN WT-LU R R R R0 TINU ST 0 WT WT-OR- RN WT-OR-LU WT-R- OR-RN S0- WT-L WT WT-L-R-OR WT-RN-R-OR R S0- R IN I0 IL LTS R0- RF IN WT WT WT-RN-RN WT-RN WT-RN-R WT-R () 0-VFO WT WT F WT-L-LU WT WT-RN WT R S0 R0 LIMITR OR WT 0 WT-R-OR WT-L-OR WT-RN-OR - M0- RRIR + OWR MIRO- SWIT F F WT-R S0-FUNTI F WT-R-OR-LU WT-R-LU WT-RN-R WT WT-OR WT-L-R WT-L-RN 0 WT-R WT-R-RN () WT-OR 0 W Y RT WT-OR Figure -. Radio Reciever R-0/URR Main Frame Wiring iagram Sheet of Rev: 0//00

16 0 WT-RN WT-RN WT-RN WT-L WT-L WT-RN 0 WT-L WT-RN WT-R-OR-RN 0.00 WT-RN WT-RN WT,,, OR OR WT-RN 0 0 WT-L-LU WT-RN WT WT-R-OR OR WT-RN OR -IF S0- OVNS T0 0 WT-RN WT-L-R WT-RN-LU WT-L-LU WT-R-LU WT-RN-R-OR WT-L- R-LU WT-L- R-RN,, WT 0 WT-R WT-R WT-OR 0 WT-L-R WT-L-R WT-RN WT-OR-LU 0 0 TINU ST 0 F MF _ 0 FL0- FILTR WT-OR WT-LU WT-LU WT WT-OR WT,, 0,,,, WT,, 0,, () WT-R () WT-R MIN FRM ROUNS S NOTS, WT-RN-OR WT-L-OR WT-LU 0 WT-LU WT-OR-RN WT-L-R WT-RN WT WT-L-RN () WT-R-RN WT-R WT-L WT-LU WT-RN-R 0 F0- + / 0- RF F WT,,,,, WT-RN-R WT-RN WT-RN WT-L WT-R () WT-OR R0 R0 WT-LU WT () WT-R () WT-R (0) WT-R-RN () WT-R-RN F0- + / () WT-R WT-L WT-RN WT WT-RN F 0 WT-L WT WT-RN () WT-R WT 0- XTL OS -S WT-OR WT R0 WT-L-R WT-OR WT-OR WT-RN-RN NOTS:. T OTT S N RNTSS RFR LY TO RIVRS RIN ORR NO. -IL- SRIL NO. N OV N LL -IL-. Y R+ _ R0 T0 WT-LU WT-L-R-RN. RIVRS RIN ORR NO. -IL- SRIL NO N OV N LL -IL-, T TR WIRS FROM - WIT SINTIS 0,, N R LIMINT. Y WT-L-R-LU WT-RN WT-RN W Y RT Figure -. Radio Reciever R-0/URR Main Frame Wiring iagram Sheet of Rev: 0//00

Similar documents

A L A BA M A L A W R E V IE W

A L A BA M A L A W R E V IE W A L A BA M A L A W R E V IE W Volume 52 Fall 2000 Number 1 B E F O R E D I S A B I L I T Y C I V I L R I G HT S : C I V I L W A R P E N S I O N S A N D TH E P O L I T I C S O F D I S A B I L I T Y I N

More information

L E N BRN C102.1/ 250VAC R K C103.1/ 250VAC R K R (F) K101 K102 C101.1/250V D103 R (F) 1N4004 POWERUP U101 PS7341-1A

L E N BRN C102.1/ 250VAC R K C103.1/ 250VAC R K R (F) K101 K102 C101.1/250V D103 R (F) 1N4004 POWERUP U101 PS7341-1A R V I S I O N S SRIPTION T PP PreProduction 00 00 Value Model ZR00 ZR000 ZR00 00V.?? V.?? V 0 ILTR I POWR INLT ZR00 I INLT INORPORTS MINS US 00 L N RN RN/YL LU RN/ YL ONUTOR TT TO IT SSIS STU O NOT UPLIT

More information

3V3 DECOUPLING DS90LV018A MCLKTON 4U7/10V +/-10% C196 +/-10% LCLK1IN+ NMCLKTON SK18 74LS123 MULTI +/-5% C N C94 10N

3V3 DECOUPLING DS90LV018A MCLKTON 4U7/10V +/-10% C196 +/-10% LCLK1IN+ NMCLKTON SK18 74LS123 MULTI +/-5% C N C94 10N 0 THIS RWG ONORMS TO.S. -T-0-00-0- U/0V +/-% 00N +/-0% 0N +/-0% U/0V +/-% 00N +/-0% 0 0N +/-0% R R 0R % P/0V +/-% K % U S YLLOW U 0 U U S0LV0 MLKTON /R S S R SK LS MULTI U/0V +/-% 00N +/-0% 0N +/-0% LLK+

More information

ATMOSPHERIC DISTURBANCE MONITOR MAIN CIRCUIT BOARD V5

ATMOSPHERIC DISTURBANCE MONITOR MAIN CIRCUIT BOARD V5 P VOL TMOSPHRI ISTURN MONITOR MIN IRUIT OR V5 R 70K IN 0mH 0pF OLLTOR OUT TST.00mF IN 70K mh Q R 0pF OLOR O: R 0mF N9 TRIM N9 K9. SI LIHTNIN TTOR (-) to (+) Pulse Out 5 00mF (+) to (-) Pulse Out 0R *R

More information

c. What is the average rate of change of f on the interval [, ]? Answer: d. What is a local minimum value of f? Answer: 5 e. On what interval(s) is f

c. What is the average rate of change of f on the interval [, ]? Answer: d. What is a local minimum value of f? Answer: 5 e. On what interval(s) is f Essential Skills Chapter f ( x + h) f ( x ). Simplifying the difference quotient Section. h f ( x + h) f ( x ) Example: For f ( x) = 4x 4 x, find and simplify completely. h Answer: 4 8x 4 h. Finding the

More information

176 5 t h Fl oo r. 337 P o ly me r Ma te ri al s

176 5 t h Fl oo r. 337 P o ly me r Ma te ri al s A g la di ou s F. L. 462 E l ec tr on ic D ev el op me nt A i ng er A.W.S. 371 C. A. M. A l ex an de r 236 A d mi ni st ra ti on R. H. (M rs ) A n dr ew s P. V. 326 O p ti ca l Tr an sm is si on A p ps

More information

Exhibit 2-9/30/15 Invoice Filing Page 1841 of Page 3660 Docket No

Exhibit 2-9/30/15 Invoice Filing Page 1841 of Page 3660 Docket No xhibit 2-9/3/15 Invie Filing Pge 1841 f Pge 366 Dket. 44498 F u v 7? u ' 1 L ffi s xs L. s 91 S'.e q ; t w W yn S. s t = p '1 F? 5! 4 ` p V -', {} f6 3 j v > ; gl. li -. " F LL tfi = g us J 3 y 4 @" V)

More information

Exam 2 Solutions. Jonathan Turner 4/2/2012. CS 542 Advanced Data Structures and Algorithms

Exam 2 Solutions. Jonathan Turner 4/2/2012. CS 542 Advanced Data Structures and Algorithms CS 542 Avn Dt Stutu n Alotm Exm 2 Soluton Jontn Tun 4/2/202. (5 ont) Con n oton on t tton t tutu n w t n t 2 no. Wt t mllt num o no tt t tton t tutu oul ontn. Exln you nw. Sn n mut n you o u t n t, t n

More information

STEEL PIPE NIPPLE BLACK AND GALVANIZED

STEEL PIPE NIPPLE BLACK AND GALVANIZED Price Sheet Effective August 09, 2018 Supersedes CWN-218 A Member of The Phoenix Forge Group CapProducts LTD. Phone: 519-482-5000 Fax: 519-482-7728 Toll Free: 800-265-5586 www.capproducts.com www.capitolcamco.com

More information

160 SSC Variable Speed Drive (Series C)

160 SSC Variable Speed Drive (Series C) 0 SS Variable Speed rive (Series ) Publication 0-P onfigured rive Package Important User Information Solid state equipment has operational characteristics differing from those of electromechanical equipment.

More information

KEB INVERTER L1 L2 L3 FLC - RELAY 1 COMMON I1 - APPROACH CLOSE 0V - DIGITAL COMMON FLA - RELAY 1 N.O. AN1+ - ANALOG 1 (+) CRF - +10V OUTPUT

KEB INVERTER L1 L2 L3 FLC - RELAY 1 COMMON I1 - APPROACH CLOSE 0V - DIGITAL COMMON FLA - RELAY 1 N.O. AN1+ - ANALOG 1 (+) CRF - +10V OUTPUT XT SSMLY MOL 00 (O FS) 00 (I- PT) 00 (SIGL SLI) WG O 0 0-0 0-0-0 0.0. 0 0-0 0-0-0 0 0-0 0-0-0 VOLTG F.L...0..0..0.0..0 IIG POW FOM US SUPPLI ISOT (S TL) US OP OUTOS T T 0 O HIGH H IUIT POTTIO OT: H IUIT

More information

Self-Adjusting Top Trees

Self-Adjusting Top Trees Th Polm Sl-jsting Top Ts ynmi ts: ol: mintin n n-tx ost tht hngs o tim. link(,w): ts n g twn tis n w. t(,w): lts g (,w). pplition-spii t ssoit with gs n/o tis. ont xmpls: in minimm-wight g in th pth twn

More information

Beechwood Music Department Staff

Beechwood Music Department Staff Beechwood Music Department Staff MRS SARAH KERSHAW - HEAD OF MUSIC S a ra h K e rs h a w t r a i n e d a t t h e R oy a l We ls h C o l le g e of M u s i c a n d D ra m a w h e re s h e ob t a i n e d

More information

I N A C O M P L E X W O R L D

I N A C O M P L E X W O R L D IS L A M I C E C O N O M I C S I N A C O M P L E X W O R L D E x p l o r a t i o n s i n A g-b eanste d S i m u l a t i o n S a m i A l-s u w a i l e m 1 4 2 9 H 2 0 0 8 I s l a m i c D e v e l o p m e

More information

http://www.prodemand.com/print/index?content=tabs&module=true&tab=true&terms=tr... Page of //0 Service anual: SYST WIRING IGRS - G00 IR ONITIONING 0 hevrolet xpress.l ng G00 ig : anual / ircuit, argo Van

More information

ARC 202L. Not e s : I n s t r u c t o r s : D e J a r n e t t, L i n, O r t e n b e r g, P a n g, P r i t c h a r d - S c h m i t z b e r g e r

ARC 202L. Not e s : I n s t r u c t o r s : D e J a r n e t t, L i n, O r t e n b e r g, P a n g, P r i t c h a r d - S c h m i t z b e r g e r ARC 202L C A L I F O R N I A S T A T E P O L Y T E C H N I C U N I V E R S I T Y D E P A R T M E N T O F A R C H I T E C T U R E A R C 2 0 2 L - A R C H I T E C T U R A L S T U D I O W I N T E R Q U A

More information

SEE PAGE 2 FOR BRUSH MOTOR WIRING SEE PAGE 3 FOR MANUFACTURER SPECIFIC BLDC MOTOR WIRING EXAMPLES EZ SERVO EZSV17 WIRING DIAGRAM FOR BLDC MOTOR

SEE PAGE 2 FOR BRUSH MOTOR WIRING SEE PAGE 3 FOR MANUFACTURER SPECIFIC BLDC MOTOR WIRING EXAMPLES EZ SERVO EZSV17 WIRING DIAGRAM FOR BLDC MOTOR 0V TO 0V SUPPLY GROUN +0V TO +0V RS85 ONVRTR 9 TO OM PORT ON P TO P OM PORT US 9600 U 8IT, NO PRITY, STOP, NO FLOW TRL. OPTO SNSOR # GROUN +0V TO +0V GROUN RS85 RS85 OPTO SNSOR # PHOTO TRNSISTOR TO OTHR

More information

P a g e 3 6 of R e p o r t P B 4 / 0 9

P a g e 3 6 of R e p o r t P B 4 / 0 9 P a g e 3 6 of R e p o r t P B 4 / 0 9 p r o t e c t h um a n h e a l t h a n d p r o p e r t y fr om t h e d a n g e rs i n h e r e n t i n m i n i n g o p e r a t i o n s s u c h a s a q u a r r y. J

More information

Form and content. Iowa Research Online. University of Iowa. Ann A Rahim Khan University of Iowa. Theses and Dissertations

Form and content. Iowa Research Online. University of Iowa. Ann A Rahim Khan University of Iowa. Theses and Dissertations University of Iowa Iowa Research Online Theses and Dissertations 1979 Form and content Ann A Rahim Khan University of Iowa Posted with permission of the author. This thesis is available at Iowa Research

More information

TP16 THREE TP18 TP VAC R76 THREE. +185VDC R82 100k 70VAC TP18. 1 R63 100k. 220k C22 R80 1/2W. C39 220k THREE C20 C36 TP20 R61 R73 400V .

TP16 THREE TP18 TP VAC R76 THREE. +185VDC R82 100k 70VAC TP18. 1 R63 100k. 220k C22 R80 1/2W. C39 220k THREE C20 C36 TP20 R61 R73 400V . V I S I O N S V. SIPTION T PPOV P0 0-JN- H K 0-M- H K 0-JUL- H K -SP- H K P -JUN- H K +0V TH pf % +V 0mV 0mV k V- 00V k.k +.V TP 0pF 00V 0pF 00V J J0 O 0pF 00V J TH GIN.00 TH_MUT 0 0 0M.0 Q J TH Z N V%

More information

CD4071, CD4072 CD4075

CD4071, CD4072 CD4075 , MOS OR ate eatures igh-voltage Tyes (V Ratig) MS Quad -Iut OR ate MS ual -Iut OR ate MS Trile -Iut OR ate Medium Seed Oeratio: - tpl, tpl = s (ty) at V % Tested for Quiescet urret at V Maximum Iut urret

More information

SEASHORE LEARNING CENTER

SEASHORE LEARNING CENTER 0 PR- 0 V-R T-R R PR- 0 V-R R V-R INR 0 V-R T-R STOR 0. VSTIUL 0 R IRLS 0. R OYS 0. ORRIOR 0 OYS 0. IRLS 0. R VSTIUL 0 STOR 0. OYS 0. R VSTIUL 0 IRLS 0. V-R INR 0 STOR 0 R PR- 0 V-R T-R PR- 0 V-R RZWY

More information

Executive Committee and Officers ( )

Executive Committee and Officers ( ) Gifted and Talented International V o l u m e 2 4, N u m b e r 2, D e c e m b e r, 2 0 0 9. G i f t e d a n d T a l e n t e d I n t e r n a t i o n a2 l 4 ( 2), D e c e m b e r, 2 0 0 9. 1 T h e W o r

More information

ADORO TE DEVOTE (Godhead Here in Hiding) te, stus bat mas, la te. in so non mor Je nunc. la in. tis. ne, su a. tum. tas: tur: tas: or: ni, ne, o:

ADORO TE DEVOTE (Godhead Here in Hiding) te, stus bat mas, la te. in so non mor Je nunc. la in. tis. ne, su a. tum. tas: tur: tas: or: ni, ne, o: R TE EVTE (dhd H Hdg) L / Mld Kbrd gú s v l m sl c m qu gs v nns V n P P rs l mul m d lud 7 súb Fí cón ví f f dó, cru gs,, j l f c r s m l qum t pr qud ct, us: ns,,,, cs, cut r l sns m / m fí hó sn sí

More information

Easy Steps to build a part number... Tri-Start Series III CF P

Easy Steps to build a part number... Tri-Start Series III CF P ulti-l i Oti iul ( oto) ow to O ol os sy ts to uil t u... i-tt is 1. 2 3 4. 5. 6. oto y til iis ll tyl ll iz- st t ott y & y/ ywy ositio 50 9 0 17-08 ol ulti-l i oti otos o us wit ulti-o sil o tii o y

More information

TCI SERIES, 3 CELL THE COOLING TOWER CO., L.C. TCI 3 CELL SERIES GA

TCI SERIES, 3 CELL THE COOLING TOWER CO., L.C. TCI 3 CELL SERIES GA of T SIN IS T PROPRTY O T OOLIN TOWR OMPNY, L, N IS LON OR MUTUL SSISTN. IT IS NOT TO ORWR NOR RPRINT IN NY ORM WITOUT WRITTN PRMISSION. L W OPTIONL SS PLTORM " x " STNR PLTORM PR LL OPTIONL VIRTION SWIT

More information

EE1000 Project 4 Digital Volt Meter

EE1000 Project 4 Digital Volt Meter Ovrviw EE1000 Projt 4 Diitl Volt Mtr In this projt, w mk vi tht n msur volts in th rn o 0 to 4 Volts with on iit o ury. Th input is n nlo volt n th output is sinl 7-smnt iit tht tlls us wht tht input s

More information

z E z *" I»! HI UJ LU Q t i G < Q UJ > UJ >- C/J o> o C/) X X UJ 5 UJ 0) te : < C/) < 2 H CD O O) </> UJ Ü QC < 4* P? K ll I I <% "fei 'Q f

z E z * I»! HI UJ LU Q t i G < Q UJ > UJ >- C/J o> o C/) X X UJ 5 UJ 0) te : < C/) < 2 H CD O O) </> UJ Ü QC < 4* P? K ll I I <% fei 'Q f I % 4*? ll I - ü z /) I J (5 /) 2 - / J z Q. J X X J 5 G Q J s J J /J z *" J - LL L Q t-i ' '," ; i-'i S": t : i ) Q "fi 'Q f I»! t i TIS NT IS BST QALITY AVAILABL. T Y FRNIS T TI NTAIN A SIGNIFIANT NBR

More information

P a g e 5 1 of R e p o r t P B 4 / 0 9

P a g e 5 1 of R e p o r t P B 4 / 0 9 P a g e 5 1 of R e p o r t P B 4 / 0 9 J A R T a l s o c o n c l u d e d t h a t a l t h o u g h t h e i n t e n t o f N e l s o n s r e h a b i l i t a t i o n p l a n i s t o e n h a n c e c o n n e

More information

H NT Z N RT L 0 4 n f lt r h v d lt n r n, h p l," "Fl d nd fl d " ( n l d n l tr l t nt r t t n t nt t nt n fr n nl, th t l n r tr t nt. r d n f d rd n t th nd r nt r d t n th t th n r lth h v b n f

More information

Headers for all pins sorted by pin no. (unpopulated) TSX-1001 Cortex-M0. Oscillator 44MHz

Headers for all pins sorted by pin no. (unpopulated) TSX-1001 Cortex-M0. Oscillator 44MHz V V Way type onnector US Type onnector x.v.v Regulators Headers for all pins sorted by pin no. (unpopulated) Prototyping area with power and GNs (unpopulated) RS Transceiver US to Serial onverter Expansion

More information

+18VL. 220uf 25V. 0.1u C10UF. 100k AGND LEFT_OUT_+VE R19 22R -18VL. C9 150pF +18VL LEFT_OUT_-VE R uf 25V 22R

+18VL. 220uf 25V. 0.1u C10UF. 100k AGND LEFT_OUT_+VE R19 22R -18VL. C9 150pF +18VL LEFT_OUT_-VE R uf 25V 22R RVIION ROR O NO: PPROV: T: VL LFT_IN_V Pt Q 0 Q R Q 0 R Q 0nf Q 0 N W R 0 00 0k Pt R 00 R R k R W R 00 0 00u W 00pf u R 00k N Q J u 0 Q Q 0 0.u 0UF 0uf V R 00k N R R LFT_OUT_V Notes: Use either Q/Q or

More information

CLKOUT CLKOUT VCC CLKOUT RESOUT OSCOUT ALE TEST AD0 66 AD2 INT0 INT0 AD INT1 AD INT2/INTA0 AD5 AD7 AD7 INT AD8 AD8 AD10

CLKOUT CLKOUT VCC CLKOUT RESOUT OSCOUT ALE TEST AD0 66 AD2 INT0 INT0 AD INT1 AD INT2/INTA0 AD5 AD7 AD7 INT AD8 AD8 AD10 I U N R 00K RSIN* RST S N.0u Y LK TP RP K L TP USY INT0 INT RISMINT P.0 P. P. P. P. P. P. RY OL RX0 TX0 T P.0 P. P. P. S* S* S* S* RROR* SLK U LKIN LKOUT LKOUT LKIN LKOUT OSOUT 0 OSOUT L L RSIN* L 0 0

More information

PLAYGROUND SALE Take up to 40% off. Plus FREE equipment * with select purchase DETAILS INSIDE

PLAYGROUND SALE Take up to 40% off. Plus FREE equipment * with select purchase DETAILS INSIDE PLYROUND SL Tk up t 40% ff Plu FR quipnt * with lct puch DTILS INSID T BONUS QUIPMNT FR! T BONUS QUIPMNT FR * Mk qulifing $10K, $0K $30K puch f thi ORDR $10K ORDR $0K ORDR $30K T ON FR* T TO FR* T THR

More information

RETICLE 2 NORTH SW2 DPDT SOUTH. LM339A TxD1 Out 11 U2D DEC PULSE 1 FOCUSER-2 3.0V 17 CCD EAST U2A AUX -6 FOCUSER-2 FOCUSER SW1 DPDT

RETICLE 2 NORTH SW2 DPDT SOUTH. LM339A TxD1 Out 11 U2D DEC PULSE 1 FOCUSER-2 3.0V 17 CCD EAST U2A AUX -6 FOCUSER-2 FOCUSER SW1 DPDT J KYP PWR J TX0\ RTIL RX0\ U V V NORTH V- NORTH/SH LM J RS V MIS XMIT LX00 XMIT LX00 RV MIS RV U SH V LM RN V V 0K J U LN 0 RX0\ 0 V TTRY LM Tx Out TX0\ Rx In Tx Out RTIL 0 Rx In U 0 V LM 0 PULS FOUSR-

More information

Humanistic, and Particularly Classical, Studies as a Preparation for the Law

Humanistic, and Particularly Classical, Studies as a Preparation for the Law University of Michigan Law School University of Michigan Law School Scholarship Repository Articles Faculty Scholarship 1907 Humanistic, and Particularly Classical, Studies as a Preparation for the Law

More information

1K21 LED GR N +33V 604R VR? 1K0 -33V -33V 0R0 MUTE SWTH? JA? T1 T2 RL? +33V 100R A17 CB? 1N N RB? 2K0 QBI? OU T JE182 4K75 RB? 1N914 D?

1K21 LED GR N +33V 604R VR? 1K0 -33V -33V 0R0 MUTE SWTH? JA? T1 T2 RL? +33V 100R A17 CB? 1N N RB? 2K0 QBI? OU T JE182 4K75 RB? 1N914 D? L P.O. O X 0, N L R. PROROUH, ONRIO N KJ Y PHO N (0) FX (0) 0 WWW.RYSON. ate : Size : 000 File : OVRLL SHMI.Schoc Sheet : 0 of 0 Rev : rawn : 0.0 0K K 0K K 0K0 0K0 0K0 0K0 0K0 00K R K0 R K 0R??? 00N M?

More information

Three Phase Asymmetrical Load Flow for Four-Wire Distribution Networks

Three Phase Asymmetrical Load Flow for Four-Wire Distribution Networks T Aytl Lo Flow o Fou-W Dtuto Ntwo M. Mo *, A. M. Dy. M. A Dtt o Eltl E, A Uvty o Toloy Hz Av., T 59, I * El: o8@yoo.o Att-- Mjoty o tuto two ul u to ul lo, yty to l two l ut. T tt o tuto yt ult y o ovt

More information

~,. :'lr. H ~ j. l' ", ...,~l. 0 '" ~ bl '!; 1'1. :<! f'~.., I,," r: t,... r':l G. t r,. 1'1 [<, ."" f'" 1n. t.1 ~- n I'>' 1:1 , I. <1 ~'..

~,. :'lr. H ~ j. l' , ...,~l. 0 ' ~ bl '!; 1'1. :<! f'~.., I,, r: t,... r':l G. t r,. 1'1 [<, . f' 1n. t.1 ~- n I'>' 1:1 , I. <1 ~'.. ,, 'l t (.) :;,/.I I n ri' ' r l ' rt ( n :' (I : d! n t, :?rj I),.. fl.),. f!..,,., til, ID f-i... j I. 't' r' t II!:t () (l r El,, (fl lj J4 ([) f., () :. -,,.,.I :i l:'!, :I J.A.. t,.. p, - ' I I I

More information

LIVING/DINING 23'-6" x 13'-1" W/D M&E METER CLOSET OPT. PANTRY W/D. LIVING/DINING 23'-6" x 13'-1" ROOF TOP TERRACE AREA SQ. FT.

LIVING/DINING 23'-6 x 13'-1 W/D M&E METER CLOSET OPT. PANTRY W/D. LIVING/DINING 23'-6 x 13'-1 ROOF TOP TERRACE AREA SQ. FT. NTRY NTRY '-3" x 8'-0" '-3" x 8'-0" ###### x 8'-3" / 23'-" x 3'-" NTRY NTRY 3'-" x 7'-0" 9'-7" x 9'-7" '-0" x '-9" RKST NOOK 9'-0" x '-" 0 0 0 LVTIONS N TILS ON 9 SRIS. SHUL N TILS ON 9 SRIS. '-3" x 8'-0"

More information

Class Diagrams. CSC 440/540: Software Engineering Slide #1

Class Diagrams. CSC 440/540: Software Engineering Slide #1 Class Diagrams CSC 440/540: Software Engineering Slide # Topics. Design class diagrams (DCDs) 2. DCD development process 3. Associations and Attributes 4. Dependencies 5. Composition and Constraints 6.

More information

N V R T F L F RN P BL T N B ll t n f th D p rt nt f l V l., N., pp NDR. L N, d t r T N P F F L T RTL FR R N. B. P. H. Th t t d n t r n h r d r

N V R T F L F RN P BL T N B ll t n f th D p rt nt f l V l., N., pp NDR. L N, d t r T N P F F L T RTL FR R N. B. P. H. Th t t d n t r n h r d r n r t d n 20 2 04 2 :0 T http: hdl.h ndl.n t 202 dp. 0 02 000 N V R T F L F RN P BL T N B ll t n f th D p rt nt f l V l., N., pp. 2 24. NDR. L N, d t r T N P F F L T RTL FR R N. B. P. H. Th t t d n t r

More information

PR D NT N n TR T F R 6 pr l 8 Th Pr d nt Th h t H h n t n, D D r r. Pr d nt: n J n r f th r d t r v th tr t d rn z t n pr r f th n t d t t. n

PR D NT N n TR T F R 6 pr l 8 Th Pr d nt Th h t H h n t n, D D r r. Pr d nt: n J n r f th r d t r v th tr t d rn z t n pr r f th n t d t t. n R P RT F TH PR D NT N N TR T F R N V R T F NN T V D 0 0 : R PR P R JT..P.. D 2 PR L 8 8 J PR D NT N n TR T F R 6 pr l 8 Th Pr d nt Th h t H h n t n, D.. 20 00 D r r. Pr d nt: n J n r f th r d t r v th

More information

Mv3" L7-- Art L 31. am rt. ao - M rr. a cn. art O' N. t00. to o( C7 c O. Ort. n ' C ( a ( W 0. z D0) Ln rni 90 O H N rt 0. to0) O mx rt N. W n.

Mv3 L7-- Art L 31. am rt. ao - M rr. a cn. art O' N. t00. to o( C7 c O. Ort. n ' C ( a ( W 0. z D0) Ln rni 90 O H N rt 0. to0) O mx rt N. W n. S = TG _. -. t s e- ' F F J l T L L " m - F+ m G T. G m ( ( F+ v ( _ = ). i i vi vi t g d d --( ( ( t t ( - : m ET 7 ' m : ( 7 c t+ ) c - 7 7de 7( ( d;:', ` m G - L Lm ) 7 ` 7 [ t d `< ( ) ( m ( ) c. (

More information

DOCUMENT STATUS: RELEASE

DOCUMENT STATUS: RELEASE RVSON STORY RV T SRPTON O Y 0-4-0 RLS OR PROUTON 5 MM -04-0 NS TRU PLOT PROUTON -- S O O OR TLS 30 MM 03-3-0 3-044 N 3-45, TS S T TON O PROTTV RM OVR. 3 05--0 LT 3-004, NOT, 3-050 3 0//00 UPT ST ROM SN,

More information

'5E _ -- -=:... --!... L og...

'5E _ -- -=:... --!... L og... F U T U R E O F E M B E D D I N G A N D F A N - O U T T E C H N O L O G I E S R a o T u m m a l a, P h. D ; V e n k y S u n d a r a m, P h. D ; P u l u g u r t h a M. R a j, P h. D ; V a n e s s a S m

More information

Platform Controls. 1-1 Joystick Controllers. Boom Up/Down Controller Adjustments

Platform Controls. 1-1 Joystick Controllers. Boom Up/Down Controller Adjustments Ston 7 - Rpr Prours Srv Mnul - Son Eton Pltorm Controls 1-1 Joystk Controllrs Mntnn oystk ontrollrs t t propr sttns s ssntl to s mn oprton. Evry oystk ontrollr soul oprt smootly n prov proportonl sp ontrol

More information

Series III, TV Breakaway Fail-Safe Connectors Quick-Disconnect with an Axial Pull of Lanyard

Series III, TV Breakaway Fail-Safe Connectors Quick-Disconnect with an Axial Pull of Lanyard is, wy il- otos Qui-isot wit xil ull o y ulo ss quo mol i-tt wy il- otos ovi uqul om i viomts quii istt ismt. wy il- oto mily os wi o ltil mil tus: stt ouli m stio omltly itmtl wit st tls (/20 /2) vtoy

More information

SEE PAGE 2 FOR BRUSH MOTOR WIRING SEE PAGE 3 FOR MANUFACTURER SPECIFIC BLDC MOTOR WIRING EXAMPLES A

SEE PAGE 2 FOR BRUSH MOTOR WIRING SEE PAGE 3 FOR MANUFACTURER SPECIFIC BLDC MOTOR WIRING EXAMPLES A 7V TO 0V SUPPLY +7V TO +0V RS85 ONVRTR TO P OM PORT OR US US 9600 U 8IT, NO PRITY, STOP, NO FLOW TRL. 9 TO OM PORT ON P TO OTHR Z SRVOS OR Z STPPRS OPTO SNSOR # OPTO SNSOR # PHOTO TRNSISTOR OPTO SNSOR

More information

Software Process Models there are many process model s in th e li t e ra t u re, s om e a r e prescriptions and some are descriptions you need to mode

Software Process Models there are many process model s in th e li t e ra t u re, s om e a r e prescriptions and some are descriptions you need to mode Unit 2 : Software Process O b j ec t i ve This unit introduces software systems engineering through a discussion of software processes and their principal characteristics. In order to achieve the desireable

More information

In which direction do compass needles always align? Why?

In which direction do compass needles always align? Why? AQA Trloy Unt 6.7 Mntsm n Eltromntsm - Hr 1 Complt t p ll: Mnt or s typ o or n t s stronst t t o t mnt. Tr r two typs o mnt pol: n. Wrt wt woul ppn twn t pols n o t mnt ntrtons low: Drw t mnt l lns on

More information

CD-DET TP5_CS- LCDPWR RFPWR CHPD5 GP05 GP25 RST5 L13 D12 D11 D10 LCD_MISO LCD5_MOSI LCD5_SCK SD5_CS- LCD_MISO LCD5_MOSI LCD5_SCK SD5_CS-

CD-DET TP5_CS- LCDPWR RFPWR CHPD5 GP05 GP25 RST5 L13 D12 D11 D10 LCD_MISO LCD5_MOSI LCD5_SCK SD5_CS- LCD_MISO LCD5_MOSI LCD5_SCK SD5_CS- SPST SW L 0uH.uF TP HEER NO STUFF TP 0 HEER NO STUFF TP TP pf Y.uF.uF 0 HEER NO STUFF 0 HEER NO STUFF MHz, 0ppm pf.uf (OUT) (IN) R 0K /W % 0uF OUT OUT OUT OUT KLT L 0 L_MISO L_MOSI L_SK S_S- L_S- L_- L_

More information

4.1 Interval Scheduling. Chapter 4. Greedy Algorithms. Interval Scheduling: Greedy Algorithms. Interval Scheduling. Interval scheduling.

4.1 Interval Scheduling. Chapter 4. Greedy Algorithms. Interval Scheduling: Greedy Algorithms. Interval Scheduling. Interval scheduling. Cptr 4 4 Intrvl Suln Gry Alortms Sls y Kvn Wyn Copyrt 005 Prson-Ason Wsly All rts rsrv Intrvl Suln Intrvl Suln: Gry Alortms Intrvl suln! Jo strts t s n nss t! Two os omptl ty on't ovrlp! Gol: n mxmum sust

More information

Weighted Graphs. Weighted graphs may be either directed or undirected.

Weighted Graphs. Weighted graphs may be either directed or undirected. 1 In mny ppltons, o rp s n ssot numrl vlu, ll wt. Usully, t wts r nonntv ntrs. Wt rps my tr rt or unrt. T wt o n s otn rrr to s t "ost" o t. In ppltons, t wt my msur o t lnt o rout, t pty o ln, t nry rqur

More information

R e p u b lic o f th e P h ilip p in e s. R e g io n V II, C e n tra l V isa y a s. C ity o f T a g b ila ran

R e p u b lic o f th e P h ilip p in e s. R e g io n V II, C e n tra l V isa y a s. C ity o f T a g b ila ran R e p u b l f th e P h lp p e D e p rt e t f E d u t R e V, e tr l V y D V N F B H L ty f T b l r Ju ly, D V N M E M R A N D U M N. 0,. L T F E N R H G H H L F F E R N G F R 6 M P L E M E N T A T N T :,

More information

Theorem 1. An undirected graph is a tree if and only if there is a unique simple path between any two of its vertices.

Theorem 1. An undirected graph is a tree if and only if there is a unique simple path between any two of its vertices. Cptr 11: Trs 11.1 - Introuton to Trs Dnton 1 (Tr). A tr s onnt unrt rp wt no sp ruts. Tor 1. An unrt rp s tr n ony tr s unqu sp pt twn ny two o ts vrts. Dnton 2. A root tr s tr n w on vrtx s n snt s t

More information

T h e C S E T I P r o j e c t

T h e C S E T I P r o j e c t T h e P r o j e c t T H E P R O J E C T T A B L E O F C O N T E N T S A r t i c l e P a g e C o m p r e h e n s i v e A s s es s m e n t o f t h e U F O / E T I P h e n o m e n o n M a y 1 9 9 1 1 E T

More information

Daily Skill Practice

Daily Skill Practice G CD-0 Dily Skill Pti 00 Wkk ## W i t it Eh. gh y w m y il A ll? + = 8 Dy 8= 0. =. Nm. C h l lit tl k ty i g. I h hi ty w ig h, m y hw hi g w ig h?. W Wkk ##00 A A = t, >, = W it < t t m t m k t. Dy Dy

More information

to", \~~!' LSI'r-=- 5 b H 2-l

to, \~~!' LSI'r-=- 5 b H 2-l Math 10 Name_\< Ei_' _ WORKSHEET 2.2 - Surface Area Part 1 - Find SA of different objects Usepage 3 of your data booklet to find the formulae for SAof objects! 1. Find the SA of the square pyramid below.

More information

http://www.prodemand.com/print/index?content=tabs&module=true&tab=true&terms=tru... Page of //0 Toyota valon.0l ng XLS Service Manual: SYSTM WIRING IGRMS Print ate: //0 PRFORMN >.0L Fig :.0L, ngine Performance

More information

Page of 5 Service Manual: SYSTM WIRIN IRMS POWR ISTRIUTI 003 hevrolet Monte arlo 3.8L ng SS ig : Power istribution ircuit ( of 5) USIL (0 -RUST) USIL (6 -LK) (W/NTI-LOK RKS SYSTM) USIL (8 -LU) STRTR MOR

More information

',J -=*\? wh'? A*,a-- ilr u. 1,J ntor/uil,ll,{ ) uur/ui rlfi dl n xio $ u nr y? n. runhtdt/norn,1,,1,/, t lno',u rl,rl.

',J -=*\? wh'? A*,a-- ilr u. 1,J ntor/uil,ll,{ ) uur/ui rlfi dl n xio $ u nr y? n. runhtdt/norn,1,,1,/, t lno',u rl,rl. wh'? il u /offnimo.ffo uioalo -=*\? \,,1, o, /, o u,{u o l, uu l l* o, n f n unhd/non,1,,1,/, lno',u l,l., dl*l,,,1, uu/ui lfi dl n xio $ u n y? n ',J 1,J no/uil,ll,{ A*,a-- w. J* J $ f o f f o n 0" n

More information

Amphenol RNJ LOW PROFILE. Harsh Environment Rack & Panel Cylindrical Connectors

Amphenol RNJ LOW PROFILE. Harsh Environment Rack & Panel Cylindrical Connectors ol O O vo & l yll oo O O

More information

http://www.prodemand.com/print/index?content=tabs&module=true&tab=true&terms=tru... Page of 5 /8/07 00 Buick Lucerne 3.8L ng X Service Manual: SYSTM WIRING IGRMS Print ate: /8/07 POWR ISTRIBUTION ig :

More information

d e c b a d c b a d e c b a a c a d c c e b

d e c b a d c b a d e c b a a c a d c c e b FLAT PEYOTE STITCH Bin y mkin stoppr -- sw trou n pull it lon t tr until it is out 6 rom t n. Sw trou t in witout splittin t tr. You soul l to sli it up n own t tr ut it will sty in pl wn lt lon. Evn-Count

More information

Math 166 Week in Review 2 Sections 1.1b, 1.2, 1.3, & 1.4

Math 166 Week in Review 2 Sections 1.1b, 1.2, 1.3, & 1.4 Mt 166 WIR, Sprin 2012, Bnjmin urisp Mt 166 Wk in Rviw 2 Stions 1.1, 1.2, 1.3, & 1.4 1. S t pproprit rions in Vnn irm tt orrspon to o t ollowin sts. () (B ) B () ( ) B B () (B ) B 1 Mt 166 WIR, Sprin 2012,

More information

Degradation - Root Cause Number of in minutes Root Cause occurrences EDI Application

Degradation - Root Cause Number of in minutes Root Cause occurrences EDI Application RT IT Inident Mrket tie Sur Annul Brekdn (Jul 26 - urrent) 23 utge - Rt use Degrdtin - Rt use Degrdtin - ffet uber f uber f uber f Trnstin 3 DI Applitin u, uupnre.rnseuu uster Registrtin Applitin uster

More information

_.-l^l Snn", [g11 = -t'srrtn ti[urr--

_.-l^l Snn, [g11 = -t'srrtn ti[urr-- srs l{t L. Particle P of mass m and particle Q of mass km arc moving in opposite directions on a smooth horizontal plane wiren they collide directly. lmmediately before the collisio^n the speed of p is

More information

A new ThermicSol product

A new ThermicSol product A new ThermicSol product Double-Faced Thermo-Electric Solar-Panel TD/PV & Solar Tracker & Rotation Device An EU-patent protected product TP4-referens.pdf D o y o u w a n t to c o n v e rt it i n to G re

More information

BASIC CAGE DETAILS SHOWN 3D MODEL: PSM ASY INNER WALL TABS ARE COINED OVER BASE AND COVER FOR RIGIDITY SPRING FINGERS CLOSED TOP

BASIC CAGE DETAILS SHOWN 3D MODEL: PSM ASY INNER WALL TABS ARE COINED OVER BASE AND COVER FOR RIGIDITY SPRING FINGERS CLOSED TOP MO: PSM SY SI TIS SOWN SPRIN INRS OS TOP INNR W TS R OIN OVR S N OVR OR RIIITY. R TURS US WIT OPTION T SINS. R (UNOMPRSS) RR S OPTION (S T ON ST ) IMNSIONS O INNR SIN TO UNTION WIT QU SM ORM-TOR (zqsp+)

More information

The AN/ARC-54. Module Circuit Diagrams

The AN/ARC-54. Module Circuit Diagrams The N/R- Module ircuit iagrams. Tone squelch (selective call). Homing. High requency oscillator HO. Low requency Oscilator LO. Variable I amplifier. R mplifier. Mechanical Tuning Unit. Power mplifier.

More information

Planar convex hulls (I)

Planar convex hulls (I) Covx Hu Covxty Gv st P o ots 2D, tr ovx u s t sst ovx oyo tt ots ots o P A oyo P s ovx or y, P, t st s try P. Pr ovx us (I) Coutto Gotry [s 3250] Lur To Bowo Co ovx o-ovx 1 2 3 Covx Hu Covx Hu Covx Hu

More information

I-1. rei. o & A ;l{ o v(l) o t. e 6rf, \o. afl. 6rt {'il l'i. S o S S. l"l. \o a S lrh S \ S s l'l {a ra \o r' tn $ ra S \ S SG{ $ao. \ S l"l. \ (?

I-1. rei. o & A ;l{ o v(l) o t. e 6rf, \o. afl. 6rt {'il l'i. S o S S. ll. \o a S lrh S \ S s l'l {a ra \o r' tn $ ra S \ S SG{ $ao. \ S ll. \ (? >. 1! = * l >'r : ^, : - fr). ;1,!/!i ;(?= f: r*. fl J :!= J; J- >. Vf i - ) CJ ) ṯ,- ( r k : ( l i ( l 9 ) ( ;l fr i) rf,? l i =r, [l CB i.l.!.) -i l.l l.!. * (.1 (..i -.1.! r ).!,l l.r l ( i b i i '9,

More information

7 ACM FOR FRAME 2SET 6 FRAME 2SET 5 ACM FOR MAIN FRAME 2SET 4 MAIN FRAME 2SET 3 POLE ASSLY 1 2 CROWN STRUCTURE ASSLY 1 1 CROWN ASSLY 1

7 ACM FOR FRAME 2SET 6 FRAME 2SET 5 ACM FOR MAIN FRAME 2SET 4 MAIN FRAME 2SET 3 POLE ASSLY 1 2 CROWN STRUCTURE ASSLY 1 1 CROWN ASSLY 1 7 M OR RM 2ST 6 RM 2ST 5 M OR MIN RM 2ST 4 MIN RM 2ST 3 POL SSLY 1 2 ROWN STRUTUR SSLY 1 1 ROWN SSLY 1 SR.NO. SRIPTION QTY. a LL IMNSIONS R IN mm I N MT Pi IOLMI 1'NTION LT. Tm: XPLO VIW OR POL MOUNT MLM

More information

NOTE: ONLY RIGHT IDLER (CONFIGURATION A) ARM SHOWN IN VIEWS ON THIS PAGE

NOTE: ONLY RIGHT IDLER (CONFIGURATION A) ARM SHOWN IN VIEWS ON THIS PAGE 0 PP PP PP PP PP PP NOT: ONLY RIT ILR (ONIURTION ) RM SOWN IN VIWS ON TIS P ITM SRIPTION MTRIL QTY. IL RM - RIT / RIL LIN TUIN / O (0.0 WLL) ISI RT 0 ROMOLY LINR INS IL RM - LT / RIL LIN TUIN / O (0.0

More information

MINI POST SERIES BALUSTRADE SYSTEM INSTALLATION GUIDE PRODUCT CODE: MPS-RP

MINI POST SERIES BALUSTRADE SYSTEM INSTALLATION GUIDE PRODUCT CODE: MPS-RP MN POST SRS LUSTR SYSTM NSTLLTON U PROUT O: MPS-RP 0 R0 WLL LN 0 RONT LVTON VW R0 N P 0 T RUR LOK LOT ON LSS. SLON SL TYP. OT SS 000 LSS T 0 00 SRS LSS WT 00/00 (0mm NRMNTS VLL) MX. 000 00-0 (ROMMN) 00

More information

COMP 250. Lecture 29. graph traversal. Nov. 15/16, 2017

COMP 250. Lecture 29. graph traversal. Nov. 15/16, 2017 COMP 250 Ltur 29 rp trvrsl Nov. 15/16, 2017 1 Toy Rursv rp trvrsl pt rst Non-rursv rp trvrsl pt rst rt rst 2 Hs up! Tr wr w mstks n t sls or S. 001 or toy s ltur. So you r ollown t ltur rorns n usn ts

More information

fl W12111 L5N

fl W12111 L5N fl 41@ W1111 471,1516In15 o (1@ ) Imn5o td&& -miet9cqi c, 1119- bdo&-).6)./ 'MI 9 tg&&d L5N li@wymut4lp51:nfrthnnhiict46n-m'imilimlingnywimtpuctvuivi iru o cinuniulviu 1:411.,IJJIMg11.7f1Y91 11?ITri nct

More information

Table of C on t en t s Global Campus 21 in N umbe r s R e g ional Capac it y D e v e lopme nt in E-L e ar ning Structure a n d C o m p o n en ts R ea

Table of C on t en t s Global Campus 21 in N umbe r s R e g ional Capac it y D e v e lopme nt in E-L e ar ning Structure a n d C o m p o n en ts R ea G Blended L ea r ni ng P r o g r a m R eg i o na l C a p a c i t y D ev elo p m ent i n E -L ea r ni ng H R K C r o s s o r d e r u c a t i o n a n d v e l o p m e n t C o p e r a t i o n 3 0 6 0 7 0 5

More information

fur \ \,,^N/ D7,,)d.s) 7. The champion and Runner up of the previous year shall be allowed to play directly in final Zone.

fur \ \,,^N/ D7,,)d.s) 7. The champion and Runner up of the previous year shall be allowed to play directly in final Zone. OUL O GR SODRY DUTO, ODS,RT,SMTUR,USWR.l ntuctin f cnuct f Kbi ( y/gil)tunent f 2L-Lg t. 2.. 4.. 6. Mtche hll be lye e K ule f ene f tie t tie Dutin f ech tch hll be - +0 (Rece)+ = M The ticint f ech Te

More information

NO-Sl~l 966 RN INTERPRETiTION OF THE 02 AMGR ELECTRON SPECTRUNl(U) 1/1

NO-Sl~l 966 RN INTERPRETiTION OF THE 02 AMGR ELECTRON SPECTRUNl(U) 1/1 NOSl~l 966 RN INTERPRETiTION OF THE 02 AMGR ELETRON SPETRUNl(U) 1/1 MRSHINGTON UNIV MRSHINOTON D DEPT OF HEMISTRY UNSSIIEDH SANDE ET AL. OT 95 TR2S NSSSI4BSK9852 FO74 N 1 tgeorge UASIIE G? N L L. Q.. 1111111

More information

D t r l f r th n t d t t pr p r d b th t ff f th l t tt n N tr t n nd H n N d, n t d t t n t. n t d t t. h n t n :.. vt. Pr nt. ff.,. http://hdl.handle.net/2027/uiug.30112023368936 P bl D n, l d t z d

More information

RAMS C, 16 GA SLITTER 23

RAMS C, 16 GA SLITTER 23 RMS - 0-, G SLITTR N/ LLS /0/0 SSL UTION LL SRIL No. TG 0 S SHT OR UPPR SSMLY "M IN US" LL S SHT OR KGG SSMLY 0 ITM NO. PRT NUMR SRIPTION QTY. 00X/ " I X /" OR PULLY N/ L-0 V-LT K OR GRIP N/ POWR OR SL-0

More information

SOLUTION SET. Chapter 8 LASER OSCILLATION ABOVE THRESHOLD "LASER FUNDAMENTALS" Second Edition

SOLUTION SET. Chapter 8 LASER OSCILLATION ABOVE THRESHOLD LASER FUNDAMENTALS Second Edition SOLUTION SET Chapter 8 LASER OSCILLATION ABOVE THRESHOLD "LASER FUNDAMENTALS" Second Edition By William T. Silfvast - 1. An argon ion laser (as shown in Figure 10-S(b)) operating at 488.0 nm with a gainregion

More information

LU N C H IN C LU D E D

LU N C H IN C LU D E D Week 1 M o n d a y J a n u a ry 7 - C o lo u rs o f th e R a in b o w W e w ill b e k ic k in g o ff th e h o lid a y s w ith a d a y fu ll o f c o lo u r! J o in u s fo r a ra n g e o f a rt, s p o rt

More information

F48T10VHO, F60T10VHO, F72T10VHO, F96T12HO (1 LAMP ONLY) ELECTRICAL DATA (120V APPLICATION)

F48T10VHO, F60T10VHO, F72T10VHO, F96T12HO (1 LAMP ONLY) ELECTRICAL DATA (120V APPLICATION) LOW TEMPERATURE ELECTRONIC F72T8HO (1 ONLY) (1 ONLY) ELECTRICAL DATA (120V APPLICATION) /(N) /(L) INPUT VOLT: 120V ± 10%, 50/60Hz WATTS/TYPE F48T8HO F60T8HO F72T8HO F48T12HO F60T12HO F72T12HO F96T12HO

More information

All use SMD component if possible

All use SMD component if possible R0 0K MF SW0 NEXT R0 0R LE0 STNY & POWER ON GN R0 SW0 PREV R 0 MF R 0 MF R 0K MF R0 K MF SW0 FF GN SNP OFF OR GN Q0 S Q0 S LE R k R k 00n R 0K MF M0 R0 K MF SW0 FR +V() Q0 R 0K MF GN R0 0 R 0 GN VF_on_off

More information

National Parks and Wildlife Service

National Parks and Wildlife Service I -8 til rk Willif i ti jti ri r rl 8 Vi f 8 til rk Willif i, rtt f ltr, Hrit t ltt, ly l, li, Irl. W www.w.i -il tr.ti@..i itti W (8) ti jti r rl. Vi. til rk Willif i, rtt f ltr, Hrit t ltt. ri itr Jffry

More information

C o r p o r a t e l i f e i n A n c i e n t I n d i a e x p r e s s e d i t s e l f

C o r p o r a t e l i f e i n A n c i e n t I n d i a e x p r e s s e d i t s e l f C H A P T E R I G E N E S I S A N D GROWTH OF G U IL D S C o r p o r a t e l i f e i n A n c i e n t I n d i a e x p r e s s e d i t s e l f i n a v a r i e t y o f f o r m s - s o c i a l, r e l i g i

More information

Divided. diamonds. Mimic the look of facets in a bracelet that s deceptively deep RIGHT-ANGLE WEAVE. designed by Peggy Brinkman Matteliano

Divided. diamonds. Mimic the look of facets in a bracelet that s deceptively deep RIGHT-ANGLE WEAVE. designed by Peggy Brinkman Matteliano RIGHT-ANGLE WEAVE Dv mons Mm t look o ts n rlt tt s ptvly p sn y Py Brnkmn Mttlno Dv your mons nto trnls o two or our olors. FCT-SCON0216_BNB66 2012 Klm Pulsn Co. Ts mtrl my not rprou n ny orm wtout prmsson

More information

3WN6 Circuit-Breakers

3WN6 Circuit-Breakers i WN Ciruit-Brrs WN iruit-rrs fix-out, usw- u -po Bstt Horizot otio 0 70 S- S- 7 7 0 0 0 S-7 S-, 70 f Fixi os for outi rt S- 0 $ Sp for rov of r r % Cr for uxiiry pu & r vti sp ( uxiiry pu ) Cui oor *

More information

Fibonacci and Lucas Identities the Golden Way

Fibonacci and Lucas Identities the Golden Way Fibonacci Lucas Identities the Golden Way Kunle Adegoe adegoe00@gmail.com arxiv:1810.12115v1 [math.nt] 25 Oct 2018 Department of Physics Engineering Physics, Obafemi Awolowo University, 220005 Ile-Ife,

More information

Housing Market Monitor

Housing Market Monitor M O O D Y È S A N A L Y T I C S H o u s i n g M a r k e t M o n i t o r I N C O R P O R A T I N G D A T A A S O F N O V E M B E R İ Ī Ĭ Ĭ E x e c u t i v e S u m m a r y E x e c u t i v e S u m m a r y

More information

o C *$ go ! b», S AT? g (i * ^ fc fa fa U - S 8 += C fl o.2h 2 fl 'fl O ' 0> fl l-h cvo *, &! 5 a o3 a; O g 02 QJ 01 fls g! r«'-fl O fl s- ccco

o C *$ go ! b», S AT? g (i * ^ fc fa fa U - S 8 += C fl o.2h 2 fl 'fl O ' 0> fl l-h cvo *, &! 5 a o3 a; O g 02 QJ 01 fls g! r«'-fl O fl s- ccco > p >>>> ft^. 2 Tble f Generl rdnes. t^-t - +«0 -P k*ph? -- i t t i S i-h l -H i-h -d. *- e Stf H2 t s - ^ d - 'Ct? "fi p= + V t r & ^ C d Si d n. M. s - W ^ m» H ft ^.2. S'Sll-pl e Cl h /~v S s, -P s'l

More information

Case Study VI Answers PHA 5127 Fall 2006

Case Study VI Answers PHA 5127 Fall 2006 Qustion. A ptint is givn 250 mg immit-rls thophyllin tblt (Tblt A). A wk ltr, th sm ptint is givn 250 mg sustin-rls thophyllin tblt (Tblt B). Th tblts follow on-comprtmntl mol n hv first-orr bsorption

More information

n

n p l p bl t n t t f Fl r d, D p rt nt f N t r l R r, D v n f nt r r R r, B r f l. n.24 80 T ll h, Fl. : Fl r d D p rt nt f N t r l R r, B r f l, 86. http://hdl.handle.net/2027/mdp.39015007497111 r t v n

More information

Geometric Predicates P r og r a m s need t o t es t r ela t ive p os it ions of p oint s b a s ed on t heir coor d ina t es. S im p le exa m p les ( i

Geometric Predicates P r og r a m s need t o t es t r ela t ive p os it ions of p oint s b a s ed on t heir coor d ina t es. S im p le exa m p les ( i Automatic Generation of SS tag ed Geometric PP red icates Aleksandar Nanevski, G u y B lello c h and R o b ert H arp er PSCICO project h ttp: / / w w w. cs. cm u. ed u / ~ ps ci co Geometric Predicates

More information

SPECIFICATION SHEET : WHSG4-UNV-T8-HB

SPECIFICATION SHEET : WHSG4-UNV-T8-HB SPECIFICATION SHEET : WHSG4UNVT8HB ELECTRICAL DATA (120V APPLICATION) INPUT VO LT : 120V ± 10%, 50/60H z LAM P W ATTS/T YPE F17T8 F25T8 F30T8 F 32T8 F32T 8( 25W ) F32T8(28W ) F32T8(30W ) FB31T 8 FB32T8

More information

MOLINA HEALTHCARE, INC. (Exact name of registrant as specified in its charter)

MOLINA HEALTHCARE, INC. (Exact name of registrant as specified in its charter) UNITED STATES SECURITIES AND EXCHANGE COMMISSION Washington, D.C. 20549 FORM 8-K Current Report Pursuant to Section 13 or 15(d) of the Securities Exchange Act of 1934 Date of Report (Date of earliest event

More information

2004 Lexus LS 430 V8-4.3L (3UZ-FE) Vehicle > Powertrain Management > Diagrams > Electrical - Interactive Color (Non OE) Engine Controls - Page 1 of 7

2004 Lexus LS 430 V8-4.3L (3UZ-FE) Vehicle > Powertrain Management > Diagrams > Electrical - Interactive Color (Non OE) Engine Controls - Page 1 of 7 //0 Engine ontrols (Powertrain Management) - LLDT 00 Lexus LS 0 V-.L (UZ-E) Vehicle > Powertrain Management > Diagrams > Electrical - Interactive olor (Non OE) Engine ontrols - Page of https://my.alldata.com/repair/#/repair/article/0/component//itype//nonstandard/00

More information
2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback