AD5761
PRODUCTIONMultiple Range, 16-Bit, Bipolar, Voltage Output DACs
- Part Models
- 6
- 1ku List Price
- Starting From $3.30
Part Details
- 8 software-programmable output ranges: 0 V to +5 V, 0 V to +10 V, 0 V to +16 V, 0 V to +20 V, ±3 V, ±5 V, ±10 V, −2.5 V to +7.5 V; 5% overrange
- Total unadjusted error (TUE): 0.1% FSR maximum
- 16-bit resolution: ±2 LSB maximum INL
- Guaranteed monotonicity: ±1 LSB maximum
- Single channel, 16-bit DACs
- Settling time: 7.5 μs typical
- Integrated reference buffers
- Low noise: 35 nV/√Hz
- Low glitch: 1 nV-sec
- 1.8 V logic compatibility
- Asynchronous updating via LDAC
- Asynchronous RESET to zero scale/midscale
- DSP/microcontroller-compatible serial interface
- Robust 4 kV HBM ESD rating
- Available in 16-lead TSSOP and 16-lead LFCSP
- Operating temperature range: −40°C to +125°C
The AD5761/AD5721 are single channel, 16-/12-bit serial input, voltage output, digital-to-analog converters (DACs). They operate from single supply voltages from +4.75 V to +30 V or dual supply voltages from −16.5 V to 0 V VSS and +4.75 V to +16.5 V VDD. The integrated output amplifier and reference buffer provide a very easy to use, universal solution.
The devices offer guaranteed monotonicity, integral nonlinearity (INL) of ±2 LSB maximum, 35 nV/√Hz noise, and 7.5 μs settling time on selected ranges.
The AD5761/AD5721 use a serial interface that operates at clock rates of up to 50 MHz and are compatible with DSP and microcontroller interface standards. Double buffering allows the asynchronous updating of the DAC output. The input coding is user-selectable twos complement or straight binary. The asynchronous reset function resets all registers to their default state. The output range is user selectable, via the RA[2:0] bits in the control register.
The devices available in the 16-lead TSSOP and in the 16-lead LFCSP offer guaranteed specifications over the −40°C to +125°C industrial temperature range.
Applications
- Industrial automation
- Instrumentation, data acquisition
- Open-/closed-loop servo control, process control
- Programmable logic controllers
Documentation
Data Sheet 1
Application Note 1
Device Drivers 2
ADI has always placed the highest emphasis on delivering products that meet the maximum levels of quality and reliability. We achieve this by incorporating quality and reliability checks in every scope of product and process design, and in the manufacturing process as well. "Zero defects" for shipped products is always our goal. View our quality and reliability program and certifications for more information.
Part Model | Pin/Package Drawing | Documentation | CAD Symbols, Footprints, and 3D Models |
---|---|---|---|
AD5761ACPZ-RL7 | 16-Lead LFCSP (3mm x 3mm w/ EP) | ||
AD5761ARUZ | 16-Lead TSSOP | ||
AD5761ARUZ-RL7 | 16-Lead TSSOP | ||
AD5761BCPZ-RL7 | 16-Lead LFCSP (3mm x 3mm w/ EP) | ||
AD5761BRUZ | 16-Lead TSSOP | ||
AD5761BRUZ-RL7 | 16-Lead TSSOP |
This is the most up-to-date revision of the Data Sheet.
Software Resources
Device Drivers 2
Evaluation Software 0
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Hardware Ecosystem
Parts | Product Life Cycle | Description |
---|---|---|
Negative Linear Regulators (LDO) 1 | ||
ADP7182 | RECOMMENDED FOR NEW DESIGNS | –28 V, −200 mA, Low Noise, Linear Regulator |
Positive Linear Regulators (LDO) 3 | ||
ADM7160 | RECOMMENDED FOR NEW DESIGNS | Ultralow Noise, 200 mA, Linear Regulator |
ADP7118 | RECOMMENDED FOR NEW DESIGNS | 20 V, 200 mA, Low Noise, CMOS LDO Linear Regulator |
ADP7142 | RECOMMENDED FOR NEW DESIGNS | 40 V, 200 mA, Low Noise, CMOS LDO Linear Regulator |
Series Voltage References 4 | ||
ADR4525 | PRODUCTION | Ultra-Low-Noise, High-Accuracy 2.5V Voltage Reference |
ADR431 | PRODUCTION | Ultralow Noise XFET® Voltage References with Current Sink and Source Capability |
REF192 | PRODUCTION | 2.5V Precision Micropower, Low Dropout, Low Voltage Reference |
ADR421 | PRODUCTION | Ultraprecision, Low Noise, 2.500 V XFET® Voltage References |
Tools & Simulations
Precision DAC Error Budget Tool
The Precision DAC Error Budget Tool is a web application that calculates the DC Accuracy of precision DAC signal chains. It shows how the static errors accumulate throughout your signal chain to quickly evaluate the design tradeoffs. Calculations include the DC errors introduced by Voltage References, Operation Amplifiers and Precision DACs.
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