Key features
Two potentiometers per pack
256 resistance faucet
10KΩ50KΩ or 100kΩ total resistance
I2C serial interface
No additional level translates to low bus power
Three address pins allow up to 8% of bus devices
Maximum supply current without serial bus activity (standby)
3μ A@ V CC and V logic = 5V
1.7μ A@ V CC and V logic = 1.7V
Shutdown mode
The troops enter the terminal at the end of the open circuit and the internal connection of the RWI DCP to the RLI
The resistance of the DCP is disconnected from the circuit, reducing power dissipation
power supply
V CC = 1.7V to 5.5V analog power supply
To five logic = 1.2V to 5.5VI 2 C-bus/logic supply
Tap resistance: 70Ω typical @ V CC = 3.3V
Power-up preset to medium size (128-tap position)
Extended industrial temperature range: -40°C to +125°C
14 LD TSSOP or 16 LDμTQFN package
Pb-free (RoHS compliant)
description
ISL23325 is a volatile, low voltage, low noise, low power, 256 tower, dual numerical control potentiometer (DCP) an I2 C-bus ™ interface. It integrates two DCP cores, wiper switches and control logic in a monolithic CMOS integrated circuit. Each digitally controlled potentiometer is implemented in a combination of resistive elements and CMOS switches. The position of the wipers is controlled by the user via the I2 C-bus interface. Each potentiometer has an associated volatile wiper register (WRI, i=0,1) that can be written and read directly to the user. The WRI content controls the position of the wipers. When powered on, each DCP wiper will always start at a medium-sized (128-tap position), low-voltage, low-power, small-package ISL23325, making it ideal for using battery-powered equipment. In addition, ISL23325 has a V logic pin that allows the operation of the bus to drop to 1.2V independently of the CC value from V. This allows the DCP to be used in a variety of applications, including as a three-terminal potentiometer or two-terminal variable resistor control, parameters that can be connected directly without voltage level translators, ISL23325 low logic levels. Adjustment and signal processing.