The AD558JN DACPORT® is a complete voltage-output 8-bit digital-to-analog converter, including output amplifier, full microprocessor interface and precision voltage reference on a single monolithic chip. No external components or trims are required to interface, with full accuracy, an 8-bit data bus to an analog system.
The performance and versatility of the DACPORT is a result of several recently-developed monolithic bipolar technologies. The complete microprocessor interface and control logic is implemented with integrated injection logic (I2 L), an extremely dense and low power logic structure that is process-compatible with linear bipolar fabrication. The internal precision voltage reference is the patented low voltage bandgap circuit which permits full-accuracy performance on a single +5 V to +15 V power supply. Thin-film silicon-chromium resistors provide the stability required for guaranteed monotonic operation over the entire operating temperature range (all grades), while recent advances in laser-wafer-trimming of these thin-film resistors permit absolute calibration at the factory to within ±1 LSB; thus no user-trims for gain or offset are required. A new circuit design provides voltage settling to ±1/2 LSB for a full-scale step in 800 ns.
The AD558JN is available in four performance grades. The AD558J and K are specified for use over the 0°C to +70°C temperature range, while the AD558S and T grades are specified for -55°C to +125°C operation. The "J" and "K" grades are available either in 16-pin plastic (N) or hermetic ceramic (D) DIPS. They are also available in 20-pin JEDEC standard PLCC packages. The "S" and "T" grades are available in the 16-pin hermetic ceramic DIP package.
DACPORT is a registered trademark of Analog Devices, Inc.
Feature
- Complete 8-bit DAC
- Voltage Output-2 Calibrated Ranges
- Internal Precision Bandgap Reference
- Single-Supply Operation: +5 V to +15 V
- Full Microprocessor Interface
- Fast: 1 µs Voltage settling to ±1/2 LSB
- Low Power: 75 mW
- No User Trims
- Guaranteed Monotonic Over Temperature
- All Errors Specified Tmin to Tmax
- Small 16-Pin DIP and 20-PIN PLCC Packages
- Single Laser-Wafer-Trimmed Chip for Hybrids
(Picture: Pinout)