500 MILLION PARTS FROM 12000 MANUFACTURERS

DATASHEET SEARCH ENGINE

OSR32768

Catalog Datasheet MFG & Type PDF Document Tags

LTC2440

Abstract: LTC2449 the AMPV- turret (JP1 and JP2 must be set to EXT.) Set the demo software to OSR32768 (6.8 samples , . COMMON MODE REJECTION Select OSR32768 (6.8 samples per second) and 2X mode in the demo software and
Linear Technology
Original
LTC2449 LTC2440 TEN 8 Series LT1219 LT1236 LT1368 DC742 DC590 LT1790-2

DC846

Abstract: LTC2446UHF Solder a short wire from the CH0 to CH1. Set the demo software to OSR32768 (6.8 samples per second.) and , to the input through a 1uF capacitor. COMMON MODE REJECTION Select OSR32768 (6.8 samples per
Linear Technology
Original
LTC2446UHF LTC2446 DC846 REF01

ltc2440

Abstract: DC570A short wire from the IN- turret post to the IN+ turret post. Set the demo software to OSR32768 (6.8 , SPEED DELTA SIGMA ADC Select OSR32768 (6.8 samples per second) in the demo software and start taking
Linear Technology
Original
DC570A LT1790 DC570 50/60H LTC2050HV LTC2051HV

LTC2448

Abstract: LT1219 EXPERIMENTS INPUT NOISE Solder a short wire from the CH0 to CH1. Set the demo software to OSR32768 (6.8 , OSR32768 (6.8 samples per second) and 2X mode in the demo software and start taking data. The input noise
Linear Technology
Original
LTC2448 LTC2448UHF DC845

DC846

Abstract: LT1219 to OSR32768 (6.8 samples per second.) and check the 2X box. Noise should be approximately 0.04ppm , through a 1uF capacitor. COMMON MODE REJECTION Select OSR32768 (6.8 samples per second) and 2X mode
Linear Technology
Original
LTC2447 LTC2447UHF

LTC2449UHF

Abstract: LTC2449 the AMPV- turret (JP1 and JP2 must be set to EXT.) Set the demo software to OSR32768 (6.8 samples , . COMMON MODE REJECTION Select OSR32768 (6.8 samples per second) and 2X mode in the demo software and
Linear Technology
Original
LTC2449UHF EEprom CR16 output 7.5v DC Power Jack data sheet connex,132134 170R6 IC 742 C14-C17 TP1-TP12 TP14-TP27 079CC 8-/16-C 0603YC103KAT1A

lt136

Abstract: LTC2442 OSR32768 (6.8 samples per second) and check the 2X box. Noise should be approximately 0.04ppm of Vref , . Select OSR32768 (6.8 samples per second) and 2X mode in the demo software and start taking data. The
Linear Technology
Original
LTC2442 lt136 LTC1983 24-BIT DC979
Abstract: software to OSR32768 (6.8 samples per second.) and check the 2X box. Noise should be approximately 0.04ppm , amplifier supplies set to ground and VCC. Select OSR32768 (6.8 samples per second) and 2× mode in the Linear Technology
Original
DC742A
Abstract: REJECTION Solder a short wire from CH0 to CH1. Set the demo software to OSR32768 (6.8 samples per second , a 1µF capacitor. Select OSR32768 (6.8 samples per second) and 2× mode in the demo software and Linear Technology
Original
DC845A

HD2X7-079-MOLEX

Abstract: DC570A short wire from the IN- turret post to the IN+ turret post. Set the demo software to OSR32768 (6.8 , SPEED DELTA SIGMA ADC Select OSR32768 (6.8 samples per second) in the demo software and start taking
Linear Technology
Original
06035A331KAT1A HD2X7-079-MOLEX aac resistors CJ06-000M HD2X7-079 CP QUICK CONNECT 330PF HD1X2-079 1/16W LTC2440CGN SSOP16GN LT1236ACS8-5
Abstract: . Set the demo software to OSR32768 (6.8 samples per second) and check the 2X box. Noise should be , peak-to-peak sine wave to the input through a 1µF capacitor. Select OSR32768 (6.8 samples per second) and 2X Linear Technology
Original
DC847A
Abstract: the INâ'" turret post to the IN+ turret post. Set the demo software to OSR32768 (6.8 samples per , attenuation. Select OSR32768 (6.8 samples per second) in the demo software and start taking data. The input Linear Technology
Original
Abstract: ¼V due to the 120dB CMRR of the LTC2442. Set the demo software to OSR32768 (6.8 samples per second , . Apply a 10Hz, 2V peak-to-peak sine wave to the input through a 1µF capacitor. Select OSR32768 (6.8 Linear Technology
Original
DC979A
Abstract: software to OSR32768 (6.8 samples per second) and check the 2X box. Noise should be approximately 0.04ppm , amplifier supplies set to ground and VCC. Select OSR32768 (6.8 samples per second) and 2× mode in the Linear Technology
Original
DC742B
Abstract: the input through a 1μF capacitor. Set the demo software to OSR32768 (6.8 samples per second) and , OSR32768 (6.8 samples per second) and 2× mode in the demo software and start taking data. The input noise Linear Technology
Original
DC846A

DJ-101ST

Abstract: strain gauge and load cells rs232 ­60 ­70 ­80 ­90 0 5 NOISE RESPONSE SIGNAL RESPONSE LTC2440 RESPONSE, OSR32768 15 10 , after switching bridge // Hex code to program the LTC2440 oversample ratio // (OxFF = OSR32768
Linear Technology
Original
DJ-101ST strain gauge and load cells rs232 wheatstone Bridge amplifier i2c tedea 1240 74HC14 so8 Load cells tedea AN96-19 AN96-20

16f73

Abstract: EEPROM COPIER circuit ­80 ­90 0 5 NOISE RESPONSE SIGNAL RESPONSE LTC2440 RESPONSE, OSR32768 15 10 FREQUENCY , // (OxFF = OSR32768) // These are static because they need to be remembered // from one conversion to the
Linear Technology
Original
16f73 EEPROM COPIER circuit Lucas NovaSensor TEDEA OPTREX DMC FM75