MAX681
+5V to ±10V Voltage Converters
Generates Positive and Negative Doubled Outputs Simultaneously
Part Details
- 95% Voltage-Conversion Efficiency
- 85% Power-Conversion Efficiency
- +2V to +6V Voltage Range
- Only Four External Capacitors Required (MAX680)
- No Capacitors Required (MAX681)
- 500µA Supply Current
- Monolithic CMOS Design
The MAX680/MAX681 are monolithic, CMOS, dual charge-pump voltage converters that provide ±10V outputs from a +5V input voltage. The MAX680/MAX681 provide both a positive step-up charge pump to develop +10V from +5V input and an inverting charge pump to generate the -10V output. Both parts have an on-chip, 8kHz oscillator. The MAX681 has the capacitors internal to the package, and the MAX680 requires four external capacitors to produce both positive and negative voltages from a single supply.
The output source impedances are typically 150Ω, providing useful output currents up to 10mA. The low quiescent current and high efficiency make this device suitable for a variety of applications that need both positive and negative voltages generated from a single supply.
The MAX864/MAX865 are also recommended for new designs. The MAX864 operates at up to 200kHz and uses smaller capacitors. The MAX865 comes in the smaller µMAX® package.
Applications
- ±10V from +5V Logic Supply
- ±6V from 3V Lithium Cell
- Battery-Powered Applications
- Data Acquisition
- Handheld Instruments (PDAs, Palmtops)
- Operational Amplifier Power Supplies
- Panel Meters
Documentation
This is the most up-to-date revision of the Data Sheet.
Hardware Ecosystem
Parts | Product Life Cycle | Description |
---|---|---|
Unregulated Doubling/Inverting Charge Pumps 1 | ||
MAX864 | PRODUCTION | Dual-Output Charge Pump with Shutdown |
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