TLV5620 - 8-Bit, 10 us DAC, Serial Input, Quad DAC, Pgrmable 1x or 2x Output, Simultaneous Update

Updated : 2020-01-09 14:30:17
Description

The TLV5620C and TLV5620I are quadruple 8-bit voltage output digital-to-analog converters (DACs) with buffered reference inputs (high impedance). The DACs produce an output voltage that ranges between either one or two times the reference voltages and GND; and, the DACs are monotonic. The device is simple to use, because it runs from a single supply of 3 V to 3.6 V. A power-on reset function is incorporated to ensure repeatable start-up conditions.

Digital control of the TLV5620C and TLV5620I is over a simple three-wire serial bus that is CMOS compatible and easily interfaced to all popular microprocessor and microcontroller devices. The 11-bit command word comprises eightbits of data, two DAC select bits, and a range bit, the latter allowing selection between the times 1 or times 2 output range. The DAC registers are double buffered, allowing a complete set of new values to be written to the device, then all DAC outputs update simultaneously through control of LDAC. The digital inputs feature Schmitt triggers for high noise immunity.

The 14-terminal small-outline (SO) package allows digital control of analog functions in space-critical applications. The TLV5620C is characterized for operation from 0°C to 70°C. The TLV5620I is characterized for operation from -40°C to 85°C. The TLV5620C and TLV5620I do not require external trimming.

Products containing the "TLV5620" keyword are: TLV5620 , TLV5620C , TLV5620CD , TLV5620CD , TLV5620CDG4 , TLV5620CDR , TLV5620CDR TI DC:0719 , TLV5620CDR G4 2011 , TLV5620CDRG4 , TLV5620CDRG4 , TLV5620CN , TLV5620CN , TLV5620CNE4 , TLV5620CNG4 , TLV5620I , TLV5620ID , TLV5620ID , TLV5620IDG4 , TLV5620IDR , TLV5620IDR
Features

  • Four 8-Bit Voltage Output DACs
  • 3-V Single-Supply Operation
  • Serial Interface
  • High-Impedance Reference Inputs
  • Programmable for 1 or 2 Times Output Range
  • Simultaneous Update Facility
  • Internal Power-On Reset
  • Low-Power Consumption
  • Half-Buffered Output