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ADI
Analog Devices
Description : Ultraprecision, Low Noise, 2.048 V/2.500 V/ 3.00 V/5.00 V XFET® Voltage References

GENERAL DESCRIPTION
The ADR42x are a series of Ultraprecision, second generation eXtra implanted junction FET (XFET) Voltage References featuring Low Noise, high accuracy, and excellent long-term stability in SOIC and MSOP footprints.

FEATURES
Low noise (0.1 Hz to 10 Hz)
 ADR420: 1.75 μV p-p
 ADR421: 1.75 μV p-p
 ADR423: 2.0 μV p-p
 ADR425: 3.4 μV p-p
Low temperature coefficient: 3 ppm/°C
Long-term stability: 50 ppm/1000 hours
Load regulation: 70 ppm/mA
Line regulation: 35 ppm/V
Low hysteresis: 40 ppm typical
Wide operating range
 ADR420: 4 V to 18 V
 ADR421: 4.5 V to 18 V
 ADR423: 5 V to 18 V
 ADR425: 7 V to 18 V
Quiescent current: 0.5 mA maximum
High output current: 10 mA
Wide temperature range: −40°C to +125°C

APPLICATIONS
Precision data acquisition systems
High resolution converters
Battery-powered instrumentation
Portable medical instruments
Industrial process control systems
Precision instruments
Optical network control circuits

Description : Ultraprecision, Low Noise, 2.048 V/2.500 V/3.00 V/5.00 V XFET® Voltage References

GENERAL DESCRIPTION
The ADR42x are a series of Ultraprecision, second generation eXtra implanted junction FET (XFET) Voltage References featuring Low Noise, high accuracy, and excellent long-term stability in SOIC and MSOP footprints.
   
FEATURES
    Low noise (0.1 Hz to 10 Hz)
        ADR420: 1.75 μV p-p
        ADR421: 1.75 μV p-p
        ADR423: 2.0 μV p-p
        ADR425: 3.4 μV p-p
    Low temperature coefficient: 3 ppm/°C
    Long-term stability: 50 ppm/1000 hours
    Load regulation: 70 ppm/mA
    Line regulation: 35 ppm/V
    Low hysteresis: 40 ppm typical
    Wide operating range
        ADR420: 4 V to 18 V
        ADR421: 4.5 V to 18 V
        ADR423: 5 V to 18 V
        ADR425: 7 V to 18 V
    Quiescent current: 0.5 mA maximum
    High output current: 10 mA
    Wide temperature range: −40°C to +125°C
   
APPLICATIONS
    Precision data acquisition systems
    High resolution converters
    Battery-powered instrumentation
    Portable medical instruments
    Industrial process control systems
    Precision instruments
    Optical network control circuits
   

Description : Low Noise Micropower 2.048 V, 2.5 V, and 4.096 V Precision Voltage References

GENERAL DESCRIPTION
The ADR290, ADR291 and ADR292 are Low Noise, micro power precision Voltage References that use an XFET®reference circuit. The new XFET architecture offers significant performance improvements over traditional bandgap and Buried Zener-based References. Improvements include: one quarter the Voltage noise output of bandgap References operating at the same current, very Low and ultralinear temperature drift, Low thermal hysteresis and excellent long-term stability.

FEATURES
Supply Range
   2.35 V to 15 V, ADR290
   2.8 V to 15 V, ADR291
   4.4 V to 15 V, ADR292
Supply Current 12 A Max
Low-Noise 6 V, 8 V, 12 V p-p (0.1 Hz–10 Hz)
High Output Current 5 mA
Temperature Range 40C to 125C
Pin Compatible with REF02/REF19x

APPLICATIONS
Portable Instrumentation
Precision Reference for 3 V and 5 V Systems
A/D and D/A Converter Reference
Solar-Powered Applications
Loop-Current-Powered Instruments

Description : Low Noise Micropower 2.5 V and 4.096 V Precision Voltage References

GENERAL DESCRIPTION
The ADR291 and ADR292 are Low Noise, micropower precision Voltage References that use an XFET® reference circuit. The new XFET architecture offers significant performance improvements over traditional band gap and buried Zener-based References. Improvements include one quarter the Voltage noise output of band gap References operating at the same current, very Low and ultralinear temperature drift, Low thermal hysteresis, and excellent long-term stability.
The ADR291/ADR292 family is a series of Voltage References providing stable and accurate output Voltages from supplies as Low as 2.8 V for the ADR291. Output Voltage options are 2.5 V and 4.096 V for the ADR291 and ADR292, respectively.

FEATURES
  Supply range
     2.8 V to 15 V, ADR291
     4.4 V to 15 V, ADR292
  Supply current: 15 μA maximum
  Low noise: 8 μV and 12 μV p-p (0.1 Hz to 10 Hz)
  High output current: 5 mA
  Temperature range: −40°C to +125°C
  Pin-compatible with REF02/REF19x

APPLICATIONS
  Portable instrumentation
  Precision reference for 3 V and 5 V systems
  Analog-to-digital and digital-to-analog converter reference
  Solar-powered applications
  Loop-current-powered instruments

 

Description : Precision Low-Drift 2.048 V/2.500 V SOT-23 Voltage Reference

GENERAL DESCRIPTION
The ADR380 and ADR381 are precision 2.048 V and 2.500 V band gap Voltage References featuring high accuracy, high stability, and Low-power consumption in a tiny footprint. Patented temperature drift curvature correction techniques minimize nonlinearity of the Voltage change with temperature. The wide operating range and Low power consumption make them ideal for 3 V to 5 V battery-powered applications.

FEATURES
Initial Accuracy: 5 mV/6 mV max
Initial Accuracy Error: 0.24%/0.24%
Low TCVO: 25 ppm/C max
Load Regulation: 70 ppm/mA
Line Regulation: 25 ppm/V
Wide Operating Range:
   2.4 V to 18 V for ADR380
   2.8 V to 18 V for ADR381
Low Power: 120 A max
High Output Current: 5 mA
Wide Temperature Range: –40C to +85C
Tiny 3-Lead SOT-23 Package with Standard Pinout

APPLICATIONS
Battery-Powered Instrumentation
Portable Medical Instruments
Data Acquisition Systems
Industrial Process Control Systems
Hard Disk Drives
Automotive

ADI
Analog Devices
Description : 2.5 V/3.0 V High Precision Reference

PRODUCT DESCRIPTION
The AD780 is an ultrahigh precision bandgap reference Voltage which provides a 2.5 V or 3.0 V output from inputs between 4.0 V and 36 V. Low initial error and temperature drift combined with Low output noise and the ability to drive any value of capacitance make the AD780 the ideal choice for enhancing the performance of high resolution ADCs and DACs and for any general purpose precision reference application. A unique Low headroom design facilitates a 3.0 V output from a 5.0 V ± 10% input, providing a 20% boost to the dynamic range of an ADC, over performance with existing 2.5 V References.
   
FEATURES
    Pin-Programmable 2.5 V or 3.0 V Output
    UltraLow Drift: 3 ppm/°C max
    High Accuracy: 2.5 V or 3.0 V ± 1 mV max
    Low Noise: 100 nV/√Hz
    Noise Reduction Capability
    Low Quiescent Current: 1 mA max
    Output Trim Capability
    Plug-In Upgrade for Present References
    Temperature Output Pin
    Series or Shunt Mode Operation (±2.5 V, ±3.0 V)
   

Part Name(s) : FP25S FP75S
VMI
Voltage Multipliers Inc
Description : 2,500 V - 10,000 V Rectifier Stacks

2,500 V - 10,000 V Rectifier Stacks

2.2 A Forward Current
3000 ns Recovery Time

Part Name(s) : EVAL-AD5324DBZ
ADI
Analog Devices
Description : 2.5 V to 5.5 V, 500 μA, Quad Voltage Output 8-/10-/12-Bit DACs in 10-Lead Packages

GENERAL DESCRIPTION
The AD5304/AD5314/AD53241 are quad 8-, 10-, and 12-bit buffered Voltage output DACs in 10-lead MSOP and 10-lead LFCSP packages that operate from a single 2.5 V to 5.5 V supply, consuming 500 μA at 3 V. Their on-chip output amplifiers alLow rail-to-rail output swing to be achieved with a slew rate of 0.7 V/μs. A 3-wire serial interface is used; it operates at clock rates up to 30 MHz and is compatible with standard SPI, QSPI, MICROWIRE, and DSP interface standards.
   
FEATURES
    AD5304: 4 buffered 8-Bit DACs in 10-lead MSOP and
        10-lead LFCSP
        A, W Version: ±1 LSB INL, B Version: ±0.625 LSB INL
    AD5314: 4 buffered 10-Bit DACs in 10-lead MSOP and
        10-lead LFCSP
        A, W Version: ±4 LSB INL, B Version: ±2.5 LSB INL
    AD5324: 4 buffered 12-Bit DACs in 10-lead MSOP and
        10-lead LFCSP
        A, W Version: ±16 LSB INL, B Version: ±10 LSB INL
    Low power operation: 500 μA @ 3 V, 600 μA @ 5 V
    2.5 V to 5.5 V power supply
    Guaranteed monotonic by design over all codes
    Power-down to 80 nA @ 3 V, 200 nA @ 5 V
    Double-buffered input logic
    Output range: 0 V to VREF
    Power-on reset to 0 V
    Simultaneous update of outputs (LDAC function)
    Low power-, SPI®-, QSPI™-, MICROWIRE™-, and
        DSP-compatible 3-wire serial interface
    On-chip, rail-to-rail output buffer amplifiers
    Temperature range −40°C to +105°C
    Qualified for automotive applications
   
APPLICATIONS
    Portable battery-powered instruments
    Digital gain and offset adjustment
    Programmable Voltage and current sources
    Programmable attenuators
    Industrial process controls
   

ON-Semiconductor
ON Semiconductor
Description : LowVoltage 1.8/2.5/3.3 V 16−Bit D−Type Flip−Flop With 3.6 V−Tolerant Inputs and Outputs (3−State, Non−Inverting)

The 74ALVC16374 is an advanced performance, non−inverting 16−bit D−type flip−flop. It is designed for very high−speed, very Low−power operation in 1.8 V, 2.5 V or 3.3 V systems. The ALVC16374 is byte controlled, with each byte functioning identically, but independently. Each byte has separate Output Enable and Clock Pulse inputs. These control pins can be tied together for a full 16−bit operation.
   
• Designed for Low Voltage Operation: VCC = 1.65−3.6 V
• 3.6 V Tolerant Inputs and Outputs
• High Speed Operation: 3.6 ns max for 3.0 to 3.6 V
                                        4.5 ns max for 2.3 to 2.7 V
                                        7.8 ns max for 1.65 to 1.95 V
• Static Drive: ±24 mA Drive at 3.0 V
                       ±12 mA Drive at 2.3 V
                       ±4 mA Drive at 1.65 V
• Supports Live Insertion and Withdrawal
• IOFF Specification Guarantees High Impedance When VCC = 0 V†
• Near Zero Static Supply Current in All Three Logic States (40 A)
    Substantially Reduces System Power Requirements
• Latchup Performance Exceeds ±250 mA @ 125°C
• ESD Performance: Human Body Model >2000 V; Machine Model
    >200 V
• Second Source to Industry Standard 74ALVC16374
   

Description : 2.5 V/3.3 V Any Level Positive Input to −2.5 V/−3.3 V LVNECL Output Translator

The NB100LVEP91 is a triple any level positive input to NECL output translator. The device accepts LVPECL, LVTTL, LVCMOS, HSTL, CML or LVDS signals, and translates them to differential NECL output signals (-2.5 V / -3.3 V / -5 V).

• Typical Maximum Frequency > 2.0 GHz
• 430 ps Typical Propagation Delay
• Operating Range: VCC = 2.375 V to 3.8 V; VEE = -2.375 V to -5.5 V; GND = 0 V
• Q Output will Default Low with Inputs Open or at GND

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