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

pdcr 900 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
pdcr 900

Abstract: druck pdcr 900 PDCR 810 PDCR 900 series pdcr druck sensor Druck PDCR 900 series pdcr 900 pressure druck DRUCK pdcr 811 PDCR 900 pressure transducer PDCR 10
Text: 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


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PDF 100mV pdcr 900 druck pdcr 900 PDCR 810 PDCR 900 series pdcr druck sensor Druck PDCR 900 series pdcr 900 pressure druck DRUCK pdcr 811 PDCR 900 pressure transducer PDCR 10
PDCR 900

Abstract: pdcr 900 druck sensor pdcr druck sensor druck pdcr 900 druck pdcr 1000 PDCR 900 series Druck PDCR 900 series PDCR 900 pressure DRUCK PMP 4000 pdcr 900 pressure druck
Text: 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


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PDF USPDCR-4000 PDS-A109 PDCR 900 pdcr 900 druck sensor pdcr druck sensor druck pdcr 900 druck pdcr 1000 PDCR 900 series Druck PDCR 900 series PDCR 900 pressure DRUCK PMP 4000 pdcr 900 pressure druck
PDCR 900

Abstract: pdcr 900 druck sensor druck pdcr 250 druck pdcr 900 pdcr 900 pressure transducer MS33656-4 PDCR 1000 pdcr pressure transducer PDCR 900 pressure PDCR 900 series
Text: 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


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PDF C26482 USPDCR2100 PDCR 900 pdcr 900 druck sensor druck pdcr 250 druck pdcr 900 pdcr 900 pressure transducer MS33656-4 PDCR 1000 pdcr pressure transducer PDCR 900 pressure PDCR 900 series
2004 - Not Available

Abstract: No abstract text available
Text: .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


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PDF SH66L10 768KHz 768KHz 4/131KHz 131KHz SH6610C-based 32kHz-oscillator
PDCR 900

Abstract: SH6610C PDCR 900 -1956 SEGMENT DISPLAY 312H 309H
Text: .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


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PDF SH66L08 SH6610C-based 768KHz 768KHz 4/131KHz 131KHz dutyEG13 SEG14 PDCR 900 SH6610C PDCR 900 -1956 SEGMENT DISPLAY 312H 309H
PDCR 900

Abstract: SH6610C SH66L10H 31Fh
Text: 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


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PDF SH66L10 768KHz 768KHz 4/131KHz 131KHz SH6610C-based SEG13 SEG14 PDCR 900 SH6610C SH66L10H 31Fh
IPC-600-A

Abstract: IPC-SM-840 IPC-6011 IPC-SM840 IPC-600A PDCR 1000 Z875 CY3210 953a PDCR 929
Text: (858) 613-7931 FABRICATION DRAWING CY3210-20X34 QUARK POD MODULE DESIGN PDCR - 9297 *A 1 OF 1 PDCR - 9297 REV *A PRIMARY SILKSCREEN r n-^i mwmmm m a PDCR -9297 REV *A LAYER 2 GND PDCR - 929 7 REV *A


OCR Scan
PDF CY3Z10-Z0X CY3Z10-Z0X34. UL94V-1/2 IPC-6011/6012 IPC-600-A CY3210-20X34 PDCR-9297 -953A IPC-SM-840 IPC-6011 IPC-SM840 IPC-600A PDCR 1000 Z875 CY3210 953a PDCR 929
2005 - PDCR 10-20

Abstract: pdcr 2200
Text: = 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


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PDF SH67K93 768kHz 262kHz 58MHz/Crystal 579545MHz 768kHz 58MHz SH6610D-Based SEG20 SEG46 PDCR 10-20 pdcr 2200
Inductor

Abstract: PDCR PCORE inductor ac
Text: basic formula: PlossInductor = Pcore + Pdcr + Pacr Each component of this formula is discussed , frequency and flux density exponents, which are unique to each core material. Pdcr The wire loss caused by dc resistance is easy to calculate. It is defined by this basic formula: Pdcr (W) = Irms2 × DCR , Pdcr + Pacr Conclusion This paper has introduced the basic formulas used in determining inductor


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2007 - Not Available

Abstract: No abstract text available
Text: $ 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


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PDF SH67K90 SH6610D-Based QFP100L)
2010 - Not Available

Abstract: No abstract text available
Text: = 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


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PDF SH67K93 768kHz 262kHz 58MHz/Crystal 579545MHz 768kHz 58MHz SH6610D-Based Bi-dire07
2007 - pdcr 900

Abstract: No abstract text available
Text: $ 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


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PDF SH67K93 SH6610D-Based QFP100L) pdcr 900
SH69P43K

Abstract: SH69P43M SH6610D-based SH6610D porte SH69P PFCR PDCR 130 SKINNY28L PD05
Text: $1B PDCR .3 PDCR .2 PDCR .1 PDCR .0 R/W PORTD input/output control $1C PECR , 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 0000 $1D PFCR , .1 PCCR.0 R/W PORTC input/output control $1B PDCR .3 PDCR .2 PDCR .1 PDCR .0 R/W , .1 PC.2 PCCR.2 PC.3 PCCR.3 PD.0 PDCR .0 PD.1 PDCR .1 PD.2 PDCR .2 PD.3 PDCR .3 Figure 6 Port


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PDF SH69P43 32768Hz, 400KHz 768KHz 10-bit 28-pin SH6610n SH69P43 SH69P43K SH69P43M SH6610D-based SH6610D porte SH69P PFCR PDCR 130 SKINNY28L PD05
2008 - PDCR 81

Abstract: No abstract text available
Text: PORTC input/output control $1B PDCR .3 PDCR .2 PDCR .1 PDCR .0 R/W PORTD input/output , .0 0000 0000 $1B PDCR .3 PDCR .2 PDCR .1 PDCR .0 0000 0000 $1C PECR.3 PECR , .1 PCCR.0 R/W PORTC input/output control $1B PDCR .3 PDCR .2 PDCR .1 PDCR .0 R/W , .3 PD.0 PDCR .0 PD.1 PDCR .1 PD.2 PDCR .2 PD.3 PDCR .3 Figure 6. Port Interrupt Function


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PDF SH69P43 SH6610D-based 400KHz 32768Hz, DIP-28 PDCR 81
2014 - PVI-5000/6000-TL-OUTD

Abstract: abb inverter ABB/K14 varistor
Text: voltage range (Vdcmin.Vdcmax) Rated DC input voltage (Vdcr) Rated DC input power ( Pdcr ) Number of , Derating From MAX to Null [470V≤VMPPT≤520V] 3000 W [210V≤V MPPT≤470V] the other channel: Pdcr -3000W [90V≤V MPPT≤470V] 3000 W [210V≤VMPPT≤470V] the other channel: Pdcr -3000W [130V≤V MPPTâ , : Pdcr -4000W the other channel: Pdcr -4000W [90V≤V MPPT≤530V] [120V≤V MPPT≤530V] DC power


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SH69P42M

Abstract: SH69P42 SH69P42H y1455k PDCR 800 crystal oscillator 32768hz SH6610D 3AN6 pdcr2 pp04
Text: .3 PCCR.2 PCCR.1 PCCR.0 R/W PORTC input/output control $1B PDCR .3 PDCR .2 PDCR .1 PDCR .0 R/W PORTD input/output control $1C PECR.3 PECR.2 PECR.1 PECR.0 R/W , .2 PCCR.1 PCCR.0 0000 0000 $1B PDCR .3 PDCR .2 PDCR .1 PDCR .0 0000 0000 $1C , User's program and always kept up. Refer to I/O notice PORTC input/output control $1B PDCR .3 PDCR .2 PDCR .1 PDCR .0 R/W PORTD input/output control $1C PECR.3 PECR.2 PECR


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PDF SH69P42 32768Hz, 400KHz 768KHz 10-bit 20-pin SH6610D-based SH69P42 SH69P42M SH69P42H y1455k PDCR 800 crystal oscillator 32768hz SH6610D 3AN6 pdcr2 pp04
mip 836 ic

Abstract: mip 836 real time clock mip 836 ic mip 836 PDCR 250 PDCR 810 402D 33P3700 ste ae c 642 PDCR 800
Text: , which are selected by MOEG and PDCR bit 1 for the customer applications. One is the RF signal interface , /RFN are 40-220 mVp-pd in MO mode (MOEG=low), 100-1100 mVp-p in emboss mode (MOEG=high) when PDCR bit 1 is low. When PDCR bit 1 goes high, these head amplifiers will be disabled and MIP/MIN (MOEG=low) or , Register ( PDCR ), the Control A register (CAR), and the Control B register (CBR) via the serial port , register ( PDCR ) to set the operating mode of the device. The PDCR provides a control bit for each of the


OCR Scan
PDF 33P3700 33P3700 0195-rev mip 836 ic mip 836 real time clock mip 836 ic mip 836 PDCR 250 PDCR 810 402D ste ae c 642 PDCR 800
Not Available

Abstract: No abstract text available
Text: interface of pulse detector, which are selected by MOEG and PDCR bit 1 for the customer applications. One , mode (MOEG=low), 100-1100 mVp-p in emboss mode (MOEG=high) when PDCR bit 1 is low. When PDCR bit 1 , Power Down Control Register ( PDCR ), the Control A register (CAR), and the Control B register (CBR) via , conjunction with the Power Down Control register ( PDCR ) to set the operating mode of the device. The PDCR , PDCR determine which blocks will be active. Register mapping for the PDCR is shown in Table 3. To


OCR Scan
PDF 33P3700 33P3700
2008 - Not Available

Abstract: No abstract text available
Text: .2 PCCR.1 PCCR.0 R/W PORTC input/output control $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 , PORTC input/output control $1B PDCR .3 PDCR .2 PDCR .1 PDCR .0 R/W PORTD input/output , .2 PC.3 PCCR.3 PD.0 PDCR .0 PD.1 PDCR .1 PD.2 PDCR .2 PD.3 PDCR .3 Figure 6. Port Interrupt


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PDF SH69P42 768kHz, 400kHz 768kHz 10-bit 20-pin SH6610D-based
2011 - Not Available

Abstract: No abstract text available
Text: .44 6.2.1 PDCR -9458 Top Layer , 6.3 6.4 4 6.2.2 PDCR -9458 Bottom Layer . 45 6.2.3 PDCR -9458 Top Silk Screen. 45 6.2.4 PDCR -9458 Bottom Silk Screen , – ■44 Board file: \Hardware\ PDCR _9458_REVSS.brd ■6.2.1 PDF file


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PDF CY3218-CAPEXP1
2006 - Not Available

Abstract: No abstract text available
Text: =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


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PDF SH67L17 SH6610D-based 16bits 768kHz 131kHz 500kHz Opera-440 SEG54 SEG24 SEG55
PDCR 810

Abstract: No abstract text available
Text: interface to the pulse detector, which are selected by MOEG and PDCR bit 1 for the customer applications , in emboss mode (MOEG=high) when PDCR bit 1 is low. When PDCR bit 1 goes high, these head amplifiers , also controlled by programming the Power Down Control Register ( PDCR ), the Control A register (CAR , the Power Down Control register ( PDCR ) to set the operating mode of the device. The PDCR provides a , returning to an active mode. When the PWRON pin is driven low ("0"), the contents of the PDCR determine


OCR Scan
PDF 33P3700 33P3700 64-Lead 33P3700-CGT 33P3700-CGT PDCR 810
2010 - mic33030-ayhj

Abstract: PDCR 900 series PDCR 900 CRCW06031002FKEA
Text: 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


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PDF MIC33030 400mA MIC33030 400mA M9999-020311-C mic33030-ayhj PDCR 900 series PDCR 900 CRCW06031002FKEA
2010 - PDCR 900

Abstract: PDCR 900 series CRCW06031002FKEA MIC33030 marking rxy
Text: 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


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PDF MIC33030 400mA MIC33030 400mA M9999-051310-A PDCR 900 PDCR 900 series CRCW06031002FKEA marking rxy
2007 - Not Available

Abstract: No abstract text available
Text: PORTC input/output control register $1E PDCR .3 PDCR .2 PDCR .1 PDCR .0 R/W PORTD input , .1 PCCR.0 0000 0000 0000 $1E PDCR .3 PDCR .2 PDCR .1 PDCR .0 0000 0000 0000 , .0 R/W PORTC input/output control register $1E PDCR .3 PDCR .2 PDCR .1 PDCR .0 R/W , (PACR, PBCR, PCCR, and PDCR ) of each port. Only when the port is used as input, the PPULL (System


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PDF SH66L08A SH6610C-based 768kHz 131kHz 34SEG SEG18 SEG19 SEG20 SEG10 SEG21
Supplyframe Tracking Pixel