500 MILLION PARTS FROM 12000 MANUFACTURERS

DATASHEET SEARCH ENGINE

Top Results

Part Manufacturer Description Datasheet BUY
RH129C Linear Technology IC TWO TERM VOLTAGE REFERENCE, MBCY2, TO-46, 2 PIN, Voltage Reference visit Linear Technology - Now Part of Analog Devices
RH1009W Linear Technology IC 1-OUTPUT TWO TERM VOLTAGE REFERENCE, CDFP10, CERAMIC, PACKAGE-10, Voltage Reference visit Linear Technology - Now Part of Analog Devices
LT1019CN-10 Linear Technology IC 1-OUTPUT THREE TERM VOLTAGE REFERENCE, 10 V, PDIP, Voltage Reference visit Linear Technology - Now Part of Analog Devices
LT1019IS-10 Linear Technology IC 1-OUTPUT THREE TERM VOLTAGE REFERENCE, 10 V, PDSO, Voltage Reference visit Linear Technology - Now Part of Analog Devices
LT1021BIN-5 Linear Technology IC 1-OUTPUT THREE TERM VOLTAGE REFERENCE, 5 V, PDIP, Voltage Reference visit Linear Technology - Now Part of Analog Devices
LT1021CIN-10 Linear Technology IC 1-OUTPUT THREE TERM VOLTAGE REFERENCE, 10 V, PDIP, Voltage Reference visit Linear Technology - Now Part of Analog Devices

KELVIN-VARLEY voltage DIVIDER

Catalog Datasheet MFG & Type PDF Document Tags

DIODE C06

Abstract: EECO THUMBWHEEL Switch Shorted But One) Decimal Incremental Voltage Divider Wolff-Poggendorf Voltage Divider 1-2-3-4 Capacitor Decade 1-2-3-6 Resistor Decade 7 Bar Indicator Kelvin-Varley Voltage Divider Make Before Break 8 10 10 , Resistance (Initial) (After Life) Insulation Resistance Dielectric Withstanding Voltage ENVIRONMENTAL
EECO Switch
Original

HP 2602

Abstract: LM11 op amp FIGURE 4. The converter was tested with the arrangement shown in Figure 5. The Kelvin-Varley voltage , part-per-million (20-bit) linearity. The absolute accuracy of the converter is primarily limited by the voltage , converter. One form of this circuit compares a linear reference ramp to the unknown voltage input (see About Integrating Converters and Capacitors). When the ramp potential crosses the unknown input voltage , changing state is proportional to the input voltage. This length of time is measured digitally and
National Semiconductor
Original

HP 2602

Abstract: hp2602 with the arrangement shown in Figure 5 The Kelvin-Varley voltage divider a primary standard type has a , rejection its voltage output should track the linearity of the Kelvin divider To test this the LM11 was , part-per-million (20-bit) linearity The absolute accuracy of the converter is primarily limited by the voltage , single-slope-integrating converter One form of this circuit compares a linear reference ramp to the unknown voltage input , voltage a comparator changes state The length of time between the start of the ramp and the comparator
National Semiconductor
Original

FLUKE 8840a specification

Abstract: FLUKE 8840a i DANGEROUS VOLTAGE EARTH GROUND ON (power) SWITCH POSITION AC-ALTERNATING CURRENT A A , . (See Section 6, "MAINTE NANCE.") An open fuse may allow high voltage build-up, which is potentially , . Measuring Voltage and Resistance , . 4-2. DC VOLTAGE MEASUREMENT , . 4-15. AC VOLTAGE AND CURRENT MEASUREMENT. 4-16
-
OCR Scan

KELVIN-VARLEY DIVIDER

Abstract: hp3458a (0.0002%). Bench testing this necessitates some form of voltage source that produces equal amplitude , divider (KVD), in its most developed form, is linear to 0.1ppm. This manually switched device features , COMMON Figure 1. Conceptual Kelvin-Varley Divider The actual construction of a 0.1ppm KVD is more , Figure 2. A 4-Decade Kelvin-Varley Divider. Additional Decades Are Implemented By Opening Last Switch , criteria. 2 5V In Figure 5, we can add offset trim, a second KVD and a stable voltage source to
Linear Technology
Original

KELVIN-VARLEY DIVIDER

Abstract: MT-016 segmented voltage-output DAC. The architecture in Figure 1A is sometimes called a Kelvin-Varley Divider and , resistors, and a string of 2K equal resistors in the LSB DAC. (A) VREF KELVIN-VARLEY DIVIDER (TWO "STRING DACs") A B (B) A KELVIN DIVIDER AND R-2R LADDER NETWORK VREF OUTPUT B A B , divider buffer (Figure 1A), buffer A is always "below" (at a lower potential than) buffer B, and the , . This drops the voltage across that MSB resistor by 1 LSB of the LSB DAC-which is exactly what is
Analog Devices
Original

KELVIN-VARLEY DIVIDER

Abstract: VDR-307 , closing a feedback loop.6 The loop's integrity is determined by A-to-D converter and voltage reference , Based Code Comparator." AN86-2 Note 7: Voltage reference options are discussed in Appendix I, "Voltage References." For tutorial on the LTC2400, refer to Appendix B. Application Note 86 Linearity , Time-Full-Scale Step 1400 Milliseconds Settling Time-500µV Step 100 Milliseconds Output Voltage Range , Voltage References," Linear Technology Corporation, Application Note 82, November 1999. 8. Williams, J
Linear Technology
Original
KELVIN-VARLEY DIVIDER VDR-307 Julie Research Labs HP-419A RV-722 LM199A LTC1150 AN86-50 AN86-51 AN86-52

OFM-1A

Abstract: ofm1a DIVIDER This application requires low bias current and offset voltage, low noise, and low drift with time , . â'"55°C to 125°C.600pA max. â  Guaranteed Offset Voltage.120juV max. â , .114 db min. â  Guaranteed Voltage Gain with 5mA load current iippucmions â  Precision , ) microvolt offset voltage (and low drift with time and temperature), low voltage and current noise, and low , deliver 5mA load current with high voltage gain round out the LT1008's superb precision specifications. ^
-
OCR Scan
OFM-1A ofm1a OptoMOS FN507 1004c12 DP311 LT10Q8 CA3146 100MA 1004C 45-C/W
Abstract: DIVIDER THIS APPLICATION REQUIRES LOW BIAS CURRENT AND OFFSET VOLTAGE, LOW NOISE AND LOW DRIFT WITH , °C: 600pA Max Guaranteed Offset Voltage: 120µV Max Guaranteed Drift: 1.5µV/°C Max Low Noise, 0.1Hz to , : 114dB Min Guaranteed Voltage Gain with 5mA Load Current Available in 8-Lead PDIP and SO Packages U , are maintained over the full â'" 55°C to 125°C temperature range), microvolt offset voltage (and low drift with time and temperature), low voltage and current noise, and low power dissipation Linear Technology
Original
LT1004C-1 LT1012 LT1112 LT1880 LT1884 LT1881/LT1882

TRANSISTOR 2N3609

Abstract: 2N3609 2 FN507 ALLEN BRADLEY DECADE VOLTAGE DIVIDER THIS APPLICATION REQUIRES LOW BIAS CURRENT AND , Guaranteed Bias Current TA = 25°C: 100pA Max TA = ­ 55°C to 125°C: 600pA Max Guaranteed Offset Voltage , Current: 600A Max Guaranteed CMRR: 114dB Min Guaranteed PSRR: 114dB Min Guaranteed Voltage Gain with , °C temperature range), microvolt offset voltage (and low drift with time and temperature), low voltage and , , and the ability to deliver 5mA load current with high voltage gain round out the LT1008's superb
Linear Technology
Original
TRANSISTOR 2N3609 2N3609 2N4393 VARLEY 2N2979 Theta-J Corporation LT1884/LT1885

KELVIN-VARLEY DIVIDER

Abstract: offset voltage (and low drift with time and tempera ture), low voltage and current noise, and low power , current with high voltage gain round out the LT 1008's superb precision specifications. The all around , applications. For an internally compensated version with even lower offset voltage but otherwise similar , min. Guaranteed Voltage Gain with 5mA load current n p p L ic H T io n s Precision , maximum uminG Supply Voltage. ± 2 0 V Differential Input
-
OCR Scan
LM108A/308A A3146 0MN90NSMMOCS 0MN90NS

KELVIN-VARLEY DIVIDER

Abstract: OFM-1A (which are maintained over the full -5 5 °C to 125°C temperature range) microvolt offset voltage (and low drift with time and tempera ture), low voltage and current noise, and low power dissipation. Extremely , high voltage gain round out the LT1008's superb precision specifications. ^ The all around excellence , an internally compensated version with even lower offset voltage but otherwise similar performance , .100pA max. -55°C to 1 2 5 °C . 600pA max. Guaranteed Offset Voltage
-
OCR Scan
1004C--

LT1008CP

Abstract: KELVIN-VARLEY DIVIDER DECADE (see Note A) J VOLTAGE DIVIDER J *â'¢ TO 1-V FULL-SCALE ANALOG-TO-DIGITAL CONVERTER NOTES: A , °C I â'¢ Input Offset Voltage . 30 ^V Typ, ! 120 p.V Max at 25°C â'¢ Offset Voltage Temperature Coefficient. 1.5 (iV/°C Max â'¢ Low Peak-to-Peak Noise Voltage at 0.1 Hz to 10 Hz. 0.5 fiV â'¢ Low Supply Current. 380 |iA Typ, 600 |iA Max at 25°C â'¢ Supply Voltage Rejection Ratio . 114 dB Min at 25°C â'¢ Common-Mode Rejection Ratio. 114 dB Min at 25°C â'¢ High Voltage Amplification with 5-mA Load Current â
-
OCR Scan
LT1008M LT1008CP allen bradley CC series RESISTORS 820nV LT10Q8M LT1008C D3233 LT10Q8C

LTC1460

Abstract: KELVIN-VARLEY DIVIDER -bit DAC, kelvin-varley divider, voltage standard) and/or an accurate DVM (6.5 digits) is required. The , voltage range is 0v to Vcc, while the analog input range can go below ground and above Vref by 12.5%*Vref , 800Hz rejection. STEP 3: Select Reference The demonstration board contains an LTC1460 (5v) voltage , reference voltage is selected. Additionally, the reference is output to connector J2 for ratiometric , Noise The RMS noise is determined by applying any stable DC voltage to the input (J3) of the ADC
Linear Technology
Original
LTC2420 LT1460 DC334 100Hz 12 BIT ADC DC344 04PPM/

TRANSISTOR 2N3609

Abstract: KELVIN-VARLEY DIVIDER 2 FN507 ALLEN BRADLEY DECADE VOLTAGE DIVIDER THIS APPLICATION REQUIRES LOW BIAS CURRENT AND , Max Guaranteed Offset Voltage: 120µV Max Guaranteed Drift: 1.5µV/°C Max Low Noise, 0.1Hz to 10Hz , Min Guaranteed Voltage Gain with 5mA Load Current U APPLICATIO S s s s s s s s , °C temperature range), microvolt offset voltage (and low drift with time and temperature), low voltage and , , and the ability to deliver 5mA load current with high voltage gain round out the LT1008's superb
Linear Technology
Original
LT1882 ca314 ALL half 1008 LT1008MH

KELVIN-VARLEY DIVIDER

Abstract: FN507 FN507 ALLEN BRADLEY DECADE VOLTAGE DIVIDER 9 k£2 (see Note A) 1 k£2 (see Note *'1 - > TO 1 , pA Max at 25°C Input Offset Voltage . . . 30 120 nV Max at 25°C Typ, JG OR P PACKAGE (TOP VIEW) Offset Voltage Temperature Coefficient 1.5 (iV/°C Max Low Peak-to-Peak Noise Voltage at 0.1 Hz to 10 H z . . . 0.5 fiV Low Supply C u rren t. . . 380 jiA Typ, 600 nA Max at 25°C Supply Voltage Rejection Ratio . . . 114 dB Min at 25°C Common-Mode Rejection Ratio . . . 114 dB Min at 25°C High Voltage
-
OCR Scan
LT 2105

AD983x

Abstract: KELVIN-VARLEY DIVIDER . SEGMENTED VOLTAGE DACs KELVIN-VARLEY DIVIDER ("STRING DAC") VREF VREF KELVIN DIVIDER AND R , simple 1-bit DAC based on a single switch used with a reference voltage) are binary weighted DACs or , will start by examining one of the simplest structures of all, the Kelvin divider shown in Figure 4.1 , data. Recent DACs using this architecture are referred to as "string DACs." SIMPLEST VOLTAGE OUTPUT DAC: THE KELVIN DIVIDER ("STRING DAC") VREF 8 FROM 3 DECODER 3-BIT DIGITAL INPUT ANALOG
Analog Devices
Original
AD983x ad9850 fm modulation Binary Weighted DAC 5-TO-31 ad9850 Application Transistor based fm modulator ct 50MSPS AD985 300MSPS AN-535 CH2427-3/87/0000-495 CH25882/88/0000-357

KELVIN-VARLEY DIVIDER

Abstract: JGOR 100 pA Max at 25°C Input Offset Voltage. . 30 jiV Typ, 120 (iV Max at 25°C Offset Voltage Temperature Coefficient. . . 1.5 |iV/°C Max Low Peak-to-Peak Noise Voltage at 0.1 Hz to 10 H z . . . 0.5 nV Low Supply , u ] COMP2 ] V CC + ] OUT ] NC Common-Mode Rejection Ratio. . . 114 dB Min at 25°C High Voltage , over the full temperature range), microvolt offset voltage, low offset voltage temperature coefficient and long-term drift, low voltage and current noise, and low power dissipation. Additionally, the
-
OCR Scan
JGOR Theta-J b30pa CS-100 SENSOR

PIC16F876A free projects

Abstract: 74hc4051 filter Application Note 112 March 2007 Developments in Battery Stack Voltage Measurement A Simple , such systems it is often desirable to accurately determine each individual cell's voltage. Obtaining this information in the presence of the high "common mode" voltage generated by the battery stack is , used in an automobile. Such high voltage operation is beyond the voltage breakdown capabilities of , difficulty due to voltage breakdown The Battery Stack Problem commentary on some typical approaches
Linear Technology
Original
PIC16F876A free projects 74hc4051 filter 74HC138N 16F877A microcontroller multiplexer 74HC574 microcontroller circuit using 74hc4051 1867CH0 74HC573 AN112-23 AN112-24

16f73

Abstract: 74ACH14 Current and Reading Resultant Voltage Drop. S1-Based Modulator, Clocked From Frequency Divider, Combines , output with its internal voltage reference. C1's switched output controls Q1's on-time via Q3, forming a , 300µA at 300mV input; 2mA loading requires a 475mV supply. Figure 4 plots minimum input voltage versus , Q1's gate drive. Negative turn-off MINIMUM INPUT VOLTAGE TO MAINTAIN VOUT = 5V 0.5 A = 0.1V/DIV , . Figure 6's plot of minimum input voltage versus output current shows minimal penalty (versus Figure 4
Linear Technology
Original
16f73 74ACH14 cd4040 application note 16f73 rs232 74ACH74 LT1150 AN113-18 AN113-19 AN113-20
Showing first 20 results.