Digital Isolator 2.8 V 30 mA 3.75kVrms 15ns 8 Surface Mount 5mm 4mm 1.55mm -40°C +125°C

RS Stock No.: 769-8651Brand: Silicon LabsManufacturers Part No.: Si8712BC-B-IS
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Technical Document

Specifications

Isolation Voltage

3.75 kVrms

Rise Time

15ns

Number of Pins

8

Mounting Type

Surface Mount

Minimum Operating Temperature

-40°C

Maximum Operating Temperature

+125°C

Length

5mm

Depth

1.55mm

Width

4mm

Country of Origin

Thailand

Product details

Si87xx Series Digital Isolators

Digital Isolators, Silicon Laboratories

The Silicon Labs broad range of Digital Isolation products offers significant improvements over older isolation technologies such as opto-couplers. They demonstrate lower power consumption, greater reliability and higher performance, and are generally smaller in size and lower in cost. These CMOS-based devices exhibit stable operating characteristics over a wide temperature range and do not suffer from the lifespan limitations of opto-coupled devices.

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AED 4.15

Each (In a Pack of 4) (ex VAT)

AED 4.358

Each (In a Pack of 4) (inc VAT)

Digital Isolator 2.8 V 30 mA 3.75kVrms 15ns 8 Surface Mount 5mm 4mm 1.55mm -40°C +125°C
Select packaging type

AED 4.15

Each (In a Pack of 4) (ex VAT)

AED 4.358

Each (In a Pack of 4) (inc VAT)

Digital Isolator 2.8 V 30 mA 3.75kVrms 15ns 8 Surface Mount 5mm 4mm 1.55mm -40°C +125°C
Stock information temporarily unavailable.
Select packaging type

Technical Document

Specifications

Isolation Voltage

3.75 kVrms

Rise Time

15ns

Number of Pins

8

Mounting Type

Surface Mount

Minimum Operating Temperature

-40°C

Maximum Operating Temperature

+125°C

Length

5mm

Depth

1.55mm

Width

4mm

Country of Origin

Thailand

Product details

Si87xx Series Digital Isolators

Digital Isolators, Silicon Laboratories

The Silicon Labs broad range of Digital Isolation products offers significant improvements over older isolation technologies such as opto-couplers. They demonstrate lower power consumption, greater reliability and higher performance, and are generally smaller in size and lower in cost. These CMOS-based devices exhibit stable operating characteristics over a wide temperature range and do not suffer from the lifespan limitations of opto-coupled devices.