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CHN 534

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: V ishay I nt e rt e chn o l o g y, I nc . I INNOVAT AND TEC O L OGY Vishay Sfernice N , Color-Coded 534 Series Key Benefits â'¢ â'¢ â'¢ â'¢ â'¢ â'¢ â'¢ Choice of turns Shaft , www.vishay.com/doc?91000 V ishay I nt e rt e chn o l o g y, I nc . AND TEC I INNOVAT O L OGY Vishay Sfernice N HN MOTION TRANSDUCERS AND DIALS O 19 62-2012 533 534 534 Metric 534 Servo 535 536 Number of Turns 3 10 10 10 5 10 Resistance Range Vishay Sfernice
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CHN 535 CHN 533 CHN 536 VMN-SG2050-1204
Abstract: WITH VDD = +5V AD 5 332 /A D 53 33/ AD 5 342 /A D 534 3 Y R A N I M I L L A E C I R P CHN TE ATA , 50 20 0 Limit at TMIN, TMAX (B Version)4 Y R A N I M I L L A E C I R P CHN TE ATA D DD = , performance degradation or loss of functionality. Y R A N I M I L L A E C I R P CHN TE ATA D ­4­ REV , operation. Y R A N I M I L L A E C I R P CHN TE ATA D PD AD5332 PIN CONFIGURATION Output of DAC , . DB9 is the MSB of these 10 bits. Y R A N I M I L L A E C I R P CHN TE ATA D AD5333 PIN Analog Devices
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CHN 650 CHN 450 B/transistor chn 534 transistor CHN d5332 AD5332/AD5333/AD5342/AD5343 AD5342 AD5343 RU-20 RU-24
Abstract: = -40°C +85°C VDD = +5.0V VSS = 0V CHn+ = CHn- = VREF/2 VINCOM = VREF/2 ppm 2*VREF - ±2.048/PGA - V VIN = [CHn+ - CHn-] VSS-0.3 FSR - VDD+0.3 V 1 , Technology Inc. DS22088B_CN 5 MCP3422/3/4 TA = -40°C +85°C VDD = +5.0V VSS = 0V CHn+ = CHn- = , +85°CVDD = +5.0VVSS = 0VCHn+ = CHn- = VREF/2VINCOM = VREF/2 8 TA = +25°C 0.003 0.0025 0.002 0.0015 , /3/4 TA = -40°C +85°CVDD = +5.0VVSS = 0VCHn+ = CHn- = VREF/2VINCOM = VREF/2 3 180 2 VDD Microchip Technology
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MCP3424 MCP342X CHN 532 CHN 541 chn 452 chn 542 Chn 835 MCP3424E MCP3422 MCP3423 MCP3423MCP3424I2CI2C MCP342310DFNMSOP
Abstract: Reference Features Description · 18-bit ADC with 4 Input Channels · Differential Inputs (CHn+, CHn , +85°C, VDD = +5.0V, VSS = 0V, CHn+ = CHn- = VREF/2. All ppm units use 2*VREF as differential full-scale , = [CHn+ - CHn-] VSS-0.3 - VDD+0.3 V Differential Input Impedance ZIND (f) - , , CHn+ = CHn- = VREF/2. All ppm units use 2*VREF as differential full-scale range. Parameters Sym , , CHn+ = CHn- = VREF/2. 8 TA = +25°C 0.003 0.0025 0.002 PGA = 4 PGA = 8 0.0015 PGA = 2 Rohde & Schwarz
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CHN 550 CHN 431 chn 538 CHN 545 chn 710 CHN 712 6004K12 ZNC-B10 ZN-B14 ZNC-B19 ZNC3-B22 ZNC-K19
Abstract: +85°C, VDD = +5.0V, VSS = 0V, CHn+ = CHn- = VREF/2, VINCOM = VREF /2. All ppm units use 2*VREF as , - V Conditions Analog Inputs Differential Full Scale Input Voltage Range VIN = [CHn+ - CHn-] VSS-0.3 - VDD+0.3 V Differential Input Impedance ZIND (f) - 2.25/PGA , +5.0V, VSS = 0V, CHn+ = CHn- = VREF/2, VINCOM = VREF /2. All ppm units use 2*VREF as differential full , indicated, TA = -40°C to +85°C, VDD = +5.0V, VSS = 0V, CHn+ = CHn- = VREF/2, VINCOM = VREF/2. 0.004 Microchip Technology
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PIC16f876 mcp3424 example codes CHN 612 diode PIC16f876 example codes I2C chn 630 chn 627 PIC16f876 example codes DS22088A-
Abstract: +85°C, VDD = +5.0V, VSS = 0V, CHn+ = CHn- = VREF/2, VINCOM = VREF /2. All ppm units use 2*VREF as , Voltage Range VIN = [CHn+ - CHn-] VSS-0.3 - VDD+0.3 V Differential Input Impedance , otherwise specified, all parameters apply for TA = -40°C to +85°C, VDD = +5.0V, VSS = 0V, CHn+ = CHn- = , , CHn+ = CHn- = VREF/2, VINCOM = VREF/2. 8 TA = +25°C 0.003 0.0025 0.002 PGA = 4 PGA = 8 , indicated, TA = -40°C to +85°C, VDD = +5.0V, VSS = 0V, CHn+ = CHn- = VREF/2, VINCOM = VREF/2. 200 3 V Microchip Technology
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MCP3426 MCP3427 MCP3428 MCP3426 SAMPLE CODE IN C MCP3426 SAMPLE CODE MCP3428 example codes MCP3426/7/8 DS22226A-
Abstract: TA = -40°C to +85° V C, CHn+ = CHn- = VREF/2, VINCOM = VREF /2. All ppm units use 2*VREF as , Voltage Range Maximum Input Voltage Range VIN = [CHn+ - CHn-] VSS-0.3 â'" VDD+0.3 V , apply for TA = -40°C to +85° V C, CHn+ = CHn- = VREF/2, VINCOM = VREF /2. All ppm units use 2*VREF , +5.0V, VSS = 0V, CHn+ = CHn- = VREF/2, C C, VINCOM = VREF/2. 0.004 0.003 PGA = 1 PGA = 4 , MCP3426/7/8 Note: Unless otherwise indicated, TA = -40° to +85° V DD = +5.0V, VSS = 0V, CHn+ = CHn- = Microchip Technology
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MCP4725 MAX 8997 mcp4725 example codes chn 656 chn 543 0835 DS22088B-
Abstract: +85°C, VDD = +5.0V, VSS = 0V, CHn+ = CHn- = VREF/2, VINCOM = VREF /2. All ppm units use 2*VREF as , Voltage Range VIN = [CHn+ - CHn-] VSS-0.3 - VDD+0.3 V Differential Input Impedance , otherwise specified, all parameters apply for TA = -40°C to +85°C, VDD = +5.0V, VSS = 0V, CHn+ = CHn- = , +85°C, VDD = +5.0V, VSS = 0V, CHn+ = CHn- = VREF/2, VINCOM = VREF/2. 8 TA = +25°C 0.003 0.0025 , : Unless otherwise indicated, TA = -40°C to +85°C, VDD = +5.0V, VSS = 0V, CHn+ = CHn- = VREF/2, VINCOM = Microchip Technology
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Abstract: TA = -40°C to +85° V C, CHn+ = CHn- = VREF/2, VINCOM = VREF /2. All ppm units use 2*VREF as , Voltage Range Maximum Input Voltage Range VIN = [CHn+ - CHn-] VSS-0.3 â'" VDD+0.3 V , , CHn+ = CHn- = VREF/2, VINCOM = VREF /2. All ppm units use 2*VREF as differential full scale range , , CHn+ = CHn- = VREF/2, C C, VINCOM = VREF/2. 8 TA = +25° C 0.003 0.0025 0.002 PGA = 4 , indicated, TA = -40° to +85° V DD = +5.0V, VSS = 0V, CHn+ = CHn- = VREF/2, C C, VINCOM = VREF/2. 200 Microchip Technology
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mcp3422 example codes Digital Weighing Scale PIC rtd 2660 chn 135 NPP-301 CHN 929 DS22088C-
Abstract: . 11-4 T16 Ch.n Clock Control Register . 11-4 T16 Ch.n Mode Register . 11-5 T16 Ch.n Control Register . 11-5 T16 Ch.n Reload Data Register . 11-6 T16 Ch.n Counter Data Register Microchip Technology
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Abstract: qcnbch SAMXON~S mj_]c`c][ncih0 Tb_ ][j[]cnil gomn hin \_ om_^ ch [h [g\c_hn n_gj_l[nol_ qbc]b _r]_^m nb , +. \lch_ il icf0 *\+ Ag\c_hn ]ih^cncihm nb[n ch]fo^_ nirc] a[m_m mo]b [m bs^lia_h mof`c^_. mof`oliom []c^. hcnliom []c^. ]bfilch_. [ggihcog. _n]000 *]+ Ag\c_hn ]ih^cncihm nb[n _rjim_ nb_ ][j[]cnil ni itih_. ofnl , [n_^ pifn[a_ b[m \_h l_[]b_^. g[chn[ch `il 52 ni 82 gchon_m0 O3< Aiieb\Zmbhg Gnb]^ebg^l.l@N , ` mifp_hn. nb_ [g\c_hn n_gj_l[nol_ i` nb_ ][j[]cnil ch m_lpc]_. nb_ [jjfc_^ pifn[a_ [h^ ncg_ _n]0 O3 Seiko Epson
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16-BIT S1C17W22/W23
Abstract: , BOOST = 11, OSR = 32 CHn+/- -1 â'" +1 V All analog input channels, measured to , /GAIN mV VREF = 1.2V, proportional to VREF Note 5 Analog Input Absolute Voltage on CHn+/- , , the accuracy and noise specifications are not ensured. 3.2 ADC Differential Analog Inputs (CHn+/CHn-) The CHn+/- pins (n comprised between 0 and 3) are the four fully-differential analog voltage , . The maximum absolute voltage, with respect to AGND, for each CHn+/- input pin is ±1V with no -
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LMM 2057 TLC 7555 MBI 5066 samxon GR LM 805 CV chn 809 O3659 O3666 O3678
Abstract: = 32 CHn+/- -1 â'" +1 V All analog input channels, measured to AGND IIN â , -4 â'" +4 % â'" 1 â'" ppm/°C Analog Input Absolute Voltage on CHn+/- pins , to AGND or floating. DS20005216A-page 17 MCP3914 3.1 ADC Differential Analog Inputs (CHn+/CHn-) The CHn+/- pins (n comprised between 0 and 7) are the eight fully-differential analog , = 1.2V. The maximum absolute voltage, with respect to AGND, for each CHn+/- input pin is ±1V with Microchip Technology
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MCP3912 16/32-B
Abstract: CHn+/- -1 â'" +1 V All analog input channels, measured to AGND IIN â'" +/-1 , â'" +4 % â'" 1 â'" ppm/°C Analog Input Absolute Voltage on CHn+/- pins, n , Analog Inputs (CHn+/CHn-) The CHn+/- pins (n comprised between 0 and 5) are the six , /GAIN with VREF = 1.2V. The maximum absolute voltage, with respect to AGND, for each CHn+/- input pin Microchip Technology
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CRC-16 DS20005216A-
Abstract: shows how the conversion principles differ between the two families. MPC551x chN to chM Conversion - Single-Shot or Continuous per Channel Group chN Conversion Command - Single-Shot or , CPU/eDMA ADC CFIFO ADC CPU/eDMA Memory - Result Queue RFIFO Ch0 . ChN . Ch39 Conversion Result N to M Ch0 . ChN . ChM . Ch35 CPU/eDMA Memory - Result Queue , CPU activity 5.3.4 Halt Mode Reduced-activity low-power mode during which the core clock is Analog Devices
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CHN b42 chn 743 pin of chn 743 chn 529 CHN 524 chn 729 ADSP-21065L RND32 I-127 I-128
Abstract: fD(DRCLK) â'" 4 125 ksps For maximum condition, BOOST = 11, OSR = 32 CHn+/- , , proportional to VREF Note 5 Analog Input Absolute Voltage on CHn+/- pins, n between 0 and 2 Analog Input , are not ensured. 3.2 ADC Differential Analog Inputs (CHn+/CHn-) The CHn+/- pins (n , , with respect to AGND, for each CHn+/- input pin is ±1V with no distortion and ±2V with no breaking Microchip Technology
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MCP3913 DS20005227A-
Abstract: , MCLK running continuously Differential Input Voltage Range (CHn+ - CHn-) -600/GAIN â , (CHn+/CHn-) The two fully differential analog voltage inputs for the Delta-Sigma ADCs are: â'¢ CH0 , respect to AGND, for each CHn+/- input pin is ±1V with no distortion, and ±2V with no breaking after Freescale Semiconductor
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mpc560x uart example mpc560x st naming CHN 816 MPC551X emios AN3753 MPC551 MPC560 SPC560B
Abstract: . Param. Num. Symbol Characteristic A011 CHn+- Analog Input Absolute Voltage A012 , Differential Analog Inputs(CHn+/CHn-) CHn- and CHn+, are the two fully-differential analog voltage inputs , . The maximum absolute voltage, with respect to AGND, for each CHn+/- input pin is +/-1V with no , following formula: Where VCM= (CHn+ + CHn-)/2 is the Common-Mode input voltage and VOUT is the , around 0V with a 500 mV amplitude. EQUATION 3-10: 3.19 · CH0+=CH0-=AGND · CHn+ - CHn-=1VP-P @ Microchip Technology
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FRAME2 MCP3919
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