ADI AD5346BRU-REEL7
- Part Number:
- AD5346BRU-REEL7
- Manufacturer:
- ADI
- Ventron No:
- 5150087-AD5346BRU-REEL7
- Description:
- 2.5 V to 5.5 V, Parallel Interface 2.5 V to 5.5 V, Parallel Interface
- Datasheet:
- AD5346BRU-REEL7
The AD5346BRU-REEL7 is 2.5 V to 5.5 V, Parallel Interface 2.5 V to 5.5 V, Parallel Interface , it is part of series. they are designed to work as ADI chip.AD5346BRU-REEL7 with pin details manufactured by . The AD5346BRU-REEL7 is available in Package,it is part of the electronic component Chips.that includes Series. they are designed to operate as ADI chip.it is with Operating Temperature .AD5346BRU-REEL7 with original stock manufactured by . The AD5346BRU-REEL7 is available in Package.Generally IC chips offer Mounting Style features such as SMD/SMT, Package Case of AD5346BRU-REEL7is designed to work in , it's Operating Temperature is .The AD5346BRU-REEL7 is available in Package, is part of the ADI chip and belong to RF Semiconductors.AD5346BRU-REEL7 with EDA / CAD Models manufactured by . The AD5346BRU-REEL7 is available in Package, is part of the RF Semiconductors.The AD5346BRU-REEL7 is ADI chip with package manufactured by . The AD5346BRU-REEL7 is available in Package, is part of the 2.5 V to 5.5 V, Parallel Interface 2.5 V to 5.5 V, Parallel Interface.
AD5346BRU-REEL7 More Descriptions
DAC 8-CH Resistor-String 8-bit 38-Pin TSSOP T/R
Digital to Analog Converters - DAC Octal 8-Bit Vout w/ Serial ITF IC
The AD5346/AD5347/AD5348 are octal 8-, 10-, and 12- bit DACs, operating from a 2.5 V to 5.5 V supply. These devices incorporate an on-chip output buffer that can drive the output to both supply rails, and also allows a choice of buffered or unbuffered reference input. The AD5346/AD5347/AD5348 have a parallel interface. CS selects the device and data is loaded into the input registers on the rising edge of WR. A readback feature allows the internal DAC registers to be read back through the digital port. The GAIN pin on these devices allows the output range to be set at 0 V to VREF or 0 V to 2 x VREF. Input data to the DACs is double-buffered, allowing simultaneous update of multiple DACs in a system using the LDAC pin. An asynchronous CLR input is also provided, which resets the contents of the Input Register and the DAC Register to all zeros. These devices also incorporate a power-on-reset circuit that ensures that the DAC output powers on to 0 V and remains there until valid data is written to the device. All three parts are pin-compatible, which allows the user to select the amount of resolution appropriate for their application without redesigning their circuit board. APPLICATIONS Portable battery-powered instruments Digital gain and offset adjustment Programmable voltage and current sources Optical networking Automatic test equipment Mobile communications Programmable attenuators Industrial process control
Digital to Analog Converters - DAC Octal 8-Bit Vout w/ Serial ITF IC
The AD5346/AD5347/AD5348 are octal 8-, 10-, and 12- bit DACs, operating from a 2.5 V to 5.5 V supply. These devices incorporate an on-chip output buffer that can drive the output to both supply rails, and also allows a choice of buffered or unbuffered reference input. The AD5346/AD5347/AD5348 have a parallel interface. CS selects the device and data is loaded into the input registers on the rising edge of WR. A readback feature allows the internal DAC registers to be read back through the digital port. The GAIN pin on these devices allows the output range to be set at 0 V to VREF or 0 V to 2 x VREF. Input data to the DACs is double-buffered, allowing simultaneous update of multiple DACs in a system using the LDAC pin. An asynchronous CLR input is also provided, which resets the contents of the Input Register and the DAC Register to all zeros. These devices also incorporate a power-on-reset circuit that ensures that the DAC output powers on to 0 V and remains there until valid data is written to the device. All three parts are pin-compatible, which allows the user to select the amount of resolution appropriate for their application without redesigning their circuit board. APPLICATIONS Portable battery-powered instruments Digital gain and offset adjustment Programmable voltage and current sources Optical networking Automatic test equipment Mobile communications Programmable attenuators Industrial process control
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