Description The circuit is a monolithic IP431A three-terminal programmable shunt Zener diode. The voltage used as the low voltage reference is the temperature coefficient zener which is programmable between VREF (2.5V) and 36 volts using two external resistors. The device has a wide operating range from 1 mA to 100 mA with a typical dynamic impedance of 0.2 watts. Active output cir...
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DESCRIPTION The IRU431L family has three-terminal adjustable shunts that can also be used for precision voltage regulator references. Its output voltage can be set to any value between VREF (1.24V) and 15V with two external resistors as shown in the typical application circuit. Other applications for this device include being used as a reference for merging amplifiers and a...
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Radiation Hardened 2.5V Reference Skystar* Power Radiation Hardened IS-1009RH is a 2.5V shunt Zener diode designed to provide a stable 2.5V reference over a wide current range. The device is designed to maintain stability over the entire miitary temperature range and over time. 0.2% reference tolerance is via on-chip trimming. The terminal is provided with an adjustment in order t...
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It shows that the KA431/KA431A/KA431L has a three-terminal adjustable voltage regulator series, and the thermal stability is more guaranteed for the applicable temperature range. The output voltage can be set to any value between VREF (approximately 2.5 volts) and two external resistors of 36. These devices have a voltage typical of 0.2 watts for an active output. The dynamic outpu...
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Features Low Voltage Reference: 600mV Low temperature coefficient reference: 25ppm accurate reference voltage to 600mV: +6mV at TJ=25°C High PSRR: 45dB at 300kHz High Line Rejection: 1 mV (from 2.2V to 18V VCC) Low Supply Current: 300μA Open Collector Output Direct Drive Optocoupler Compact 5-Pin SOT23 Package Industrial Temperature Range: -40°C to...
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Features Low start-up overshoot Current operating width: 40 to 100mA Low Temperature Coefficient Reference: 12mV Max Deviation Over Temperature Accurate 1.24V Reference Voltage: +0.5% (six mV) 25°C Low dynamic impedance: 0.3 at 1kHz but compact 3-pin SOT23 package option Industrial temperature range: -40°C to 85°C Adjustable Output Voltage: VREF to 6V... Appl...
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Product Description The CLM285/385-1.2 is a micro 2-terminal bandgap Zener diode. Operates over a wide current range of 10mA with low dynamic impedance and stable temperature characteristics of 20mA. Calogic utilizes on-chip trim to provide tight voltage tolerances. These devices are excellent portable meters, regulators or general purpose analog circuits with battery life approaching ...
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feature 1.2 V Precision Output Excellent Line Regulation, 2 ppm/V Typical High Supply Ripple Rejection, -80 dB Ultra Low Power Consumption at 220 Hz, Supply Current 16A Maximum Temperature Coefficient 40ppm/°C Maximum Low Noise, 12.5 nV/Hz typical ÷ Operating voltage range from 2.4 V to 5.5 V Compact 3-Pin SOT-23 and SC70 Package Applications GSM, G...
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Features • 8-channel output reference • Accuracy is ±0.1% • Supply voltage from 4.5V to 16.5V • Digital Power 3.3V to 5V • Low supply current of 10mA • Rail-to-rail capability • I2C control interface Application • TFT - LCD driver circuit • Reference voltage generator The EL5126 is designed to produce the required voltage referenced TFT-LCD applications. E...
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Overview: The AD1580 is a low cost, two terminated (shunt), precision bandgap reference. It provides an accurate 1.225 V output at 50 mA and an input current of 10 mA. The higher accuracy and stability of the AD1580 is made possible by precise matching and on-chip tracking of components. Proprietary curvature correction design techniques have been used to minimize the non-linear output...
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Overview: The AD1580 is a low cost, two terminated (shunt), precision bandgap reference. It provides an accurate 1.225 V output at 50 mA and an input current of 10 mA. The higher accuracy and stability of the AD1580 is made possible by precise matching and on-chip tracking of components. Proprietary curvature correction design techniques have been used to minimize the non-linear output...
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