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Part Manufacturer Description Datasheet BUY
LT1102MJ Linear Technology IC INSTRUMENTATION AMPLIFIER, 900 uV OFFSET-MAX, 0.22 MHz BAND WIDTH, CDIP8, CERDIP-8, Instrumentation Amplifier visit Linear Technology - Now Part of Analog Devices
LT1102CJ Linear Technology IC INSTRUMENTATION AMPLIFIER, 900 uV OFFSET-MAX, 0.22 MHz BAND WIDTH, CDIP8, CERDIP-8, Instrumentation Amplifier visit Linear Technology - Now Part of Analog Devices
LT1122CCS8 Linear Technology IC OP-AMP, 900 uV OFFSET-MAX, 13 MHz BAND WIDTH, PDSO8, Operational Amplifier visit Linear Technology - Now Part of Analog Devices
LT1122DCS8 Linear Technology IC OP-AMP, 900 uV OFFSET-MAX, 13 MHz BAND WIDTH, PDSO8, Operational Amplifier visit Linear Technology - Now Part of Analog Devices
LT1102CN Linear Technology IC INSTRUMENTATION AMPLIFIER, 900 uV OFFSET-MAX, 0.22 MHz BAND WIDTH, PDIP8, PLASTIC, DIP-8, Instrumentation Amplifier visit Linear Technology - Now Part of Analog Devices
LT1102IN Linear Technology IC INSTRUMENTATION AMPLIFIER, 900 uV OFFSET-MAX, 0.22 MHz BAND WIDTH, PDIP8, PLASTIC, DIP-8, Instrumentation Amplifier visit Linear Technology - Now Part of Analog Devices

pdcr 900

Catalog Datasheet MFG & Type PDF Document Tags

pdcr 900

Abstract: druck pdcr 900 available. For higher ranges refer to PDCR 900 data sheet. Negative Pressure All transducers will , is not practicable please refer to PDCR 900 data sheet. Vibration Response less than 0.05% F.S , cd PDCR 800 SERIES General Purpose Pressure Transducers · Excellent linearity and hysteresis , stability ±1.5% total error band -20° to +80°C · Parameter selection available PDCR 800 series - 12/97 1 PDCR 800 SERIES INTRODUCTION Every PDCR 800 transducer is based on a high performance
Druck
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PDCR 900

Abstract: pdcr 900 druck sensor PDCR 4000 cd PDCR 4000 Series High Performance Millivolt Output Pressure Transducers n ± , /99 1 PDCR 4000 Series High Performance Millivolt Output Pressure Transducers The Druck PDCR 4000 Series, a range of high performance millivolt output pressure transducers, is a , electronics into a Hastelloy and stainless steel enclosure for optimum corrosion resistance, the PDCR 4000 , quantities of PDCR 4000 sensor "cores" are produced and held in stock. These are then selected and
Druck
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PDCR 900

Abstract: pdcr 900 druck sensor cd PDCR 2100 SERIES Wet/Wet Differential Pressure Transducers Y High accuracy ±0.1% BSL for ranges to 900 psid Y Excellent stability ±0.1% FS per 12 months Y Compatible with corrosive fluids , connections The PDCR 2100 is a small, lightweight differential pressure transducer with standard ranges from 0 to 5 psid through 0 to 900 psid. The transducer is compatible with a wide range of fluids and , facilities. The compact construction of the PDCR 2100 is ideal for aerospace applications where space may
Druck
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Abstract: .0 R/W Set PORTC to be output port 0000 $1E PDCR.3 PDCR.2 PDCR.1 PDCR.0 R/W , , PBCR, PCCR, and PDCR) controls the ON/OFF buffer of the output buffer. These I/O ports can be accessed , . Pad Location unit: µm Pad No. 1 2 Designation SEG25 SEG26 X -760 -760 Y 900 757.5 Pad No. 23 24 Designation TEST X 57.5 172.5 Y -900 -900 3 PORTC0 -760 637.5 25 CUP1 287.5 -900 4 PORTC1 -760 517.5 26 CUP2 402.5 -900 5 Sino Wealth
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SH66L10 768KH 4/131KH 131KH SH6610C- SH6610C

PDCR 900

Abstract: SH6610C .3 PCCR.2 PCCR.1 PCCR.0 R/W Set PORTC to be output port 0000 $1E PDCR.3 PDCR.2 PDCR.1 PDCR.0 R/W Set PORTD to be output port 0000 $1F - - - - - , control register (PACR, PBCR, PCCR, and PDCR) controls the ON/OFF buffer of the output buffer. These I/O , recommended. unit: µm Pad Location Pad No. 1 2 Designation SEG25 SEG26 X -760 -760 Y 900 757.5 Pad No. 23 24 Designation TEST X 57.5 172.5 Y -900 -900 3 PORTC0 -760
Sino Wealth
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PDCR 900 PDCR 900 -1956 SEGMENT DISPLAY 312H 309H SH66L08 SEG10 SEG11 SEG12 SEG13 SEG14

PDCR 900

Abstract: SH6610C to be output port 0000 $1E PDCR.3 PDCR.2 PDCR.1 PDCR.0 R/W Set PORTD to be , control register (PACR, PBCR, PCCR, and PDCR) controls the ON/OFF buffer of the output buffer. These I/O , Designation SEG25 SEG26 X -760 -760 Y 900 757.5 Pad No. 23 24 Designation TEST X 57.5 172.5 Y -900 -900 3 PORTC0 -760 637.5 25 CUP1 287.5 -900 4 PORTC1 -760 517.5 5 PORTC2 -760 402.5 26 CUP2 402.5 -900 27 VP2 517.5
Sino Wealth
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SH66L10H 31Fh SEG15 SEG21 SEG16 SEG22 SEG17 SEG23

PDCR 10-20

Abstract: pdcr 2200 = 100 Bank 21 B = 101 Bank 22 B = 110 Bank 23 B = 111 $830 - $87F $880 - $8FF $900 - , PDCR.3 PDCR.2 PDCR.1 PDCR.0 R/W Set PORTD to be output or input mode $1C PECR , .1 PCCR.0 0000 0000 $1B PDCR.3 PDCR.2 PDCR.1 PDCR.0 0000 0000 $1C PECR , control $1A PCCR.3 PCCR.2 PCCR.1 PCCR.0 R/W PORTC input/output contro $1B PDCR.3 PDCR.2 PDCR.1 PDCR.0 R/W PORTD input/output control $1C PECR.3 PECR.2 PECR
Sino Wealth
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PDCR 10-20 pdcr 2200 SH67K93 579545MH SH6610D-B SH6610D SEG32 SEG31
Abstract: $900 - $97F $980 - $9FF $A00 - $A7F $A80 - $AFF $B00 - $B7F $B80 - $BFF Bank 24 B = 000 Bank 25 , .1 PCCR.0 R/W Set PORTC to be output or input mode $1B PDCR.3 PDCR.2 PDCR.1 PDCR , PDCR.3 PDCR.2 PDCR.1 PDCR.0 0000 0000 $1C PECR.3 PECR.2 PECR.1 PECR , control $1A PCCR.3 PCCR.2 PCCR.1 PCCR.0 R/W PORTC input/output contro $1B PDCR.3 PDCR.2 PDCR.1 PDCR.0 R/W PORTD input/output control $1C PECR.3 PECR.2 PECR Sino Wealth
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SH67K90 QFP00L QFP100L
Abstract: = 100 Bank 21 B = 101 Bank 22 B = 110 Bank 23 B = 111 $830 - $87F $880 - $8FF $900 - , PDCR.3 PDCR.2 PDCR.1 PDCR.0 R/W Set PORTD to be output or input mode $1C PECR , PDCR.3 PDCR.2 PDCR.1 PDCR.0 0000 0000 $1C PECR.3 PECR.2 PECR.1 PECR , control $1A PCCR.3 PCCR.2 PCCR.1 PCCR.0 R/W PORTC input/output contro $1B PDCR.3 PDCR.2 PDCR.1 PDCR.0 R/W PORTD input/output control $1C PECR.3 PECR.2 PECR Sino Wealth
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SEG39 SH67K93P LQFP100

pdcr 900

Abstract: $900 - $97F $980 - $9FF $A00 - $A7F $A80 - $AFF $B00 - $B7F $B80 - $BFF Bank 24 B = 000 Bank 25 , input mode $1B PDCR.3 PDCR.2 PDCR.1 PDCR.0 R/W Set PORTD to be output or input mode , PDCR.3 PDCR.2 PDCR.1 PDCR.0 0000 0000 $1C PECR.3 PECR.2 PECR.1 PECR , control $1A PCCR.3 PCCR.2 PCCR.1 PCCR.0 R/W PORTC input/output contro $1B PDCR.3 PDCR.2 PDCR.1 PDCR.0 R/W PORTD input/output control $1C PECR.3 PECR.2 PECR
Sino Wealth
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SH67K93F
Abstract: =7 $860 - $87F $880 - $8FF $900 - $97F $980 - $9FF $A00 - $A7F $A80 - $AFF $B00 - $B7F , .1 PCCR.0 R/W PORTC input/output control register $3C6 PDCR.3 PDCR.2 PDCR.1 PDCR.0 R , .0 0000 0000 0000 0000 $3C6 PDCR.3 PDCR.2 PDCR.1 PDCR.0 0000 0000 0000 , .3 PCCR.2 PCCR.1 PCCR.0 R/W PORTC input/output control register $3C6 PDCR.3 PDCR.2 PDCR.1 PDCR.0 R/W PORTD input/output control register PA (/B/C/D) CR.n, (n = 0, 1, 2, 3) 0 Sino Wealth
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SH67L17 SH6610D- 60SEG SEG42 SEG43 SEG44

PDCR 900

Abstract: mic33030-ayhj Characteristics Efficiency vs. Load (VOUT = 2.5V) 90.0% VIN = 3V 80.0% 80.0% VIN = 3V 70.0 , ) 90.0% 90.0% VIN = 3.6V 80.0% EFFICIENCY (%) Efficiency vs. Load (VOUT = 1.5V , reduces their ability to filter out highfrequency noise. Efficiency vs. Load (VOUT = 2.5V) 90.0 , formula: PDCR = IOUT2 x DCR From that, the loss in efficiency due to inductor resistance can be calculated as follows: VOUT × IOUT Efficiency Loss = 1 - V OUT × IOUT + PDCR × 100
Micrel Semiconductor
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mic33030-ayhj PDCR 900 series CRCW06031002FKEA MIC33030 M9999-020311-C

PDCR 900

Abstract: PDCR 900 series Typical Characteristics Efficiency vs. Load (VOUT = 2.5V) 90.0% VIN = 3V 80.0% 80.0% VIN = 3V , ) EFFICIENCY (%) 90.0% 90.0% VIN = 3.6V 80.0% EFFICIENCY (%) Efficiency vs. Load (VOUT = 1.5V , reduces their ability to filter out highfrequency noise. Efficiency vs. Load (VOUT = 2.5V) 90.0 , can be calculated as follows: PDCR = IOUT2 x DCR From that, the loss in efficiency due to inductor resistance can be calculated as follows: VOUT × IOUT Efficiency Loss = 1 - V OUT × IOUT + PDCR
Micrel Semiconductor
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marking rxy M9999-051310-A

PDCR 900 series

Abstract: CRCW06031002FKEA Characteristics Efficiency vs. Load (VOUT = 1.8V) Efficiency vs. Load (VOUT = 2.5V) 90.0% VIN = 3V , ) EFFICIENCY (%) 90.0% 90.0% VIN = 3.6V 80.0% EFFICIENCY (%) Efficiency vs. Load (VOUT = 1.5V , reduces their ability to filter out highfrequency noise. Efficiency vs. Load (VOUT = 2.5V) 90.0 , the following formula: 2 PDCR = IOUT x DCR From that, the loss in efficiency due to inductor resistance can be calculated as follows: VOUT × IOUT Efficiency Loss = 1 - V OUT × IOUT + PDCR
Micrel Semiconductor
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M9999-071410-C

T2D 21

Abstract: T2D 07 .3 PCCR.2 PCCR.1 PCCR.0 R/W PORTC input/output control $19 PDCR.3 PDCR.2 PDCR.1 PDCR.0 R/W PORTD input/output control $1A PECR.3 PECR.2 PECR.1 PECR.0 R/W , PDCR.3 PDCR.2 PDCR.1 PDCR.0 0000 0000 $1A PECR.3 PECR.2 PECR.1 PECR , .1 PCCR.0 R/W PORTC input/output control $19 PDCR.3 PDCR.2 PDCR.1 PDCR.0 R/W
Sino Wealth
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T2D 21 T2D 07 t2d7 T2D 03 T2D14 T2D 9 SH69P26 SKINNY/28-
Abstract: 110 Bank 23 B = 111 $830 - $87F $880 - $8FF $900 - $97F $980 - $9FF $A00 - $A7F $A80 - $AFF , .1 PCCR.0 R/W Set PORTC to be output or input mode $1B PDCR.3 PDCR.2 PDCR.1 PDCR , .1 PBCR.0 0000 0000 $1A PCCR.3 PCCR.2 PCCR.1 PCCR.0 0000 0000 $1B PDCR.3 PDCR.2 PDCR.1 PDCR.0 0000 0000 $1C PECR.3 PECR.2 PECR.1 PECR.0 0000 , control $1A PCCR.3 PCCR.2 PCCR.1 PCCR.0 R/W PORTC input/output contro $1B PDCR Sino Wealth
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SH67P93 SH67P93H SH67P93F

PDCR 900

Abstract: 0.47uH -082608-B Micrel Inc. MIC23030 Typical Characteristics (continued) Enable Threshold vs. Temperature 900 , transition into PWM mode at approximately 120mA. PDCR = IOUT2 x DCR From that, the loss in efficiency due , OUT × IOUT + PDCR × 100 Efficiency loss due to DCR is minimal at light loads and
Micrel Semiconductor
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0.47uH LQH32CNR47M33 pdcr 1000 series marking h1 6pin PDCR 1000 M9999-082608-B

32p4752-cgt

Abstract: hdd ssi 0.00 0.00 1.00 2.00 3.00 4.00 5.00 6.00 7.00 8.00 9.00 10.00 11.00 12.00 13.00 14 AESBTbS DD13A21 , PWRON pins. Additional modes are also controlled by programming the Power Down Control Register (PDCR , defined as follows: POWER DOWN CONTROL REGISTER (PDCR) BIT 0 NAME PD/SVO DESCRIPTION Pulse detector/servo , (PDCR) to set the operating mode of the device. The PDCR provides a control bit for each of the , the PWRON pin is low ("0"), the contents of the PDCR determine which blocks will be active. Register
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OCR Scan
32p4752-cgt hdd ssi 32P4752/4756 32P4752 32P4756 32P4752-CGT 32P4756-CGT

TVR 221

Abstract: PDCR 317 M 900 V LX 8000 V UY 160000 V N 1000 V MX 9000 V VY 170000 V P , ) rth (t5 rth (t1 TR PDC [R th rth (t OL )] tp rth ( tp rth ( rth tp PDCR th P0 rth , (t3 rth (t5 rth (t3 rth (t2 TR PDCR th rth (t OL ) PDCRth rth (t OL ) 1 TR Tt
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TNR102K015B 221K008B TVR 221 PDCR 317 pdcr 318 TNR271K008B TNR471K010B S5688 TNR561K015B TNR821K015B TNR681K015B 102K015B
Abstract: 8.06 8.07 8.02 8.00 9 9.50 9.35 9.22 9.13 9.06 9.02 9.00 10 , modes are also controlled by programming the Power Down Control Register (PDCR), the Control A (CAR , registers are defined as follows: POWER DOWN CONTROL REGISTER (PDCR) BIT NAME 0 PD/SVO 1 NA , Power Down Control Register (PDCR) to set the operating mode of the device. The PDCR provides a control , returning to an active mode. When the PWRON pin is low (â'0â'), the contents of the PDCR determine which -
OCR Scan
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