Technical Document
Specifications
Output Current
4 A
Supply Voltage
30V
Pin Count
8
Package Type
PDIP
Driver Type
MOSFET
Number of Outputs
2
Topology
Isolated Gate Driver
Number of Drivers
1
Polarity
Non-Inverting
Mounting Type
Through Hole
Product details
Si826x range of Isolated Gate Drivers, Silicon Laboratories
Silicon Labs Si826x range of ISOdrivers are pin-compatible drop-in upgrades for popular gate drive optocouplers. These devices are ideal for driving power MOSFETs and IGBTs used in a wide variety of inverter and motor control applications. The Si826x isolated gate drivers use Silicon Labs proprietary silicon isolation technology which supports up to 5.0 kV RMS. This technology enables higher-performance, reduced variation with temperature and age, tighter part-to-part matching and superior common-mode rejection compared to opto-drivers.
MOSFET & IGBT Drivers, Silicon Laboratories
8.085 OMR
1.617 OMR Each (In a Pack of 5) (ex VAT)
8.489 OMR
1.698 OMR Each (In a Pack of 5) (inc. VAT)
Standard
5
8.085 OMR
1.617 OMR Each (In a Pack of 5) (ex VAT)
8.489 OMR
1.698 OMR Each (In a Pack of 5) (inc. VAT)
Standard
5
Stock information temporarily unavailable.
Please check again later.
quantity | Unit price | Per Pack |
---|---|---|
5 - 20 | 1.617 OMR | 8.085 OMR |
25+ | 1.380 OMR | 6.902 OMR |
Technical Document
Specifications
Output Current
4 A
Supply Voltage
30V
Pin Count
8
Package Type
PDIP
Driver Type
MOSFET
Number of Outputs
2
Topology
Isolated Gate Driver
Number of Drivers
1
Polarity
Non-Inverting
Mounting Type
Through Hole
Product details
Si826x range of Isolated Gate Drivers, Silicon Laboratories
Silicon Labs Si826x range of ISOdrivers are pin-compatible drop-in upgrades for popular gate drive optocouplers. These devices are ideal for driving power MOSFETs and IGBTs used in a wide variety of inverter and motor control applications. The Si826x isolated gate drivers use Silicon Labs proprietary silicon isolation technology which supports up to 5.0 kV RMS. This technology enables higher-performance, reduced variation with temperature and age, tighter part-to-part matching and superior common-mode rejection compared to opto-drivers.