Maxim ICL7660CPA+, Charge Pump Inverting, Step Up 225μA 10 kHz 8-Pin, PDIP

Technical Reference
Legislation and Compliance
RoHS Certificate of Compliance
Product Details

Charge Pump Converters, Maxim Integrated

A charge pump IC converts voltages using switching voltage technology and capacitive-energy storage elements. Charge pumps offer high-efficiency and compact solutions for applications with low-output current requirements.

Switching Voltage Regulators, Maxim Integrated

Specifications
Attribute Value
Converter Type Inverting, Step Up
Maximum Output Current 225µA
Maximum Switching Frequency 10 kHz
Mounting Type Through Hole
Package Type PDIP
Pin Count 8
Dimensions 9.91 x 7.87 x 4.45mm
Height 4.45mm
Length 9.91mm
Maximum Operating Supply Voltage 10 V
Maximum Operating Temperature +70 °C
Maximum Output Voltage -1.5 V, 20 V
Minimum Operating Supply Voltage 1.5 V
Minimum Output Voltage -10 V, 3 V
Minimum Operating Temperature 0 °C
Width 7.87mm
700 In stock for FREE next working day delivery
Price Each (In a Tube of 50)
£ 1.493
(exc. VAT)
£ 1.792
(inc. VAT)
Units
Per unit
Per Tube*
50 - 50
£1.493
£74.65
100 +
£1.465
£73.25
*price indicative
Related Products
TC7660EPA | Microchip TC7660EPA, Charge Pump Inverting 20mA ...
Description:
TC7660EPA | Microchip TC7660EPA, Charge Pump Inverting 20mA 10 kHz 8-Pin, PDIP
TC7660EOA | Microchip TC7660EOA, Charge Pump Inverting 20mA ...
Description:
TC7660EOA | Microchip TC7660EOA, Charge Pump Inverting 20mA 10 kHz 8-Pin, SOIC
A charge pump IC converts voltages using switching ...
Description:
A charge pump IC converts voltages using switching voltage technology and capacitive-energy storage elements. Charge pumps offer high-efficiency and compact solutions for applications with low-output current requirements.
A charge pump IC converts voltages using switching ...
Description:
A charge pump IC converts voltages using switching voltage technology and capacitive-energy storage elements. Charge pumps offer high-efficiency and compact solutions for applications with low-output current requirements.