Documentos Técnicos
Especificações
Number of Channels
4
Maximum Data Rate
1Mbps
Package Type
SOIC
Maximum Forward Voltage
5.5V
Maximum Input Current
7.4 mA
Isolation Voltage
2.5 kVrms
Rise Time
5ns
Number of Pins
16
Mounting Type
Surface Mount
Minimum Operating Temperature
-40°C
Maximum Operating Temperature
+125°C
Length
10.3mm
Depth
2.65mm
Width
7.5mm
País de Origem
Taiwan, Province Of China
Detalhes do produto
Si84x Series Digital Isolators
The CMOS digital isolators gives the ability to create small size, high performance, lower power, and reliable isolated circuits that compete with optocoupler designs.
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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R$ 40,80
Each (In a Pack of 2) (Sem VAT)
2
R$ 40,80
Each (In a Pack of 2) (Sem VAT)
2
Documentos Técnicos
Especificações
Number of Channels
4
Maximum Data Rate
1Mbps
Package Type
SOIC
Maximum Forward Voltage
5.5V
Maximum Input Current
7.4 mA
Isolation Voltage
2.5 kVrms
Rise Time
5ns
Number of Pins
16
Mounting Type
Surface Mount
Minimum Operating Temperature
-40°C
Maximum Operating Temperature
+125°C
Length
10.3mm
Depth
2.65mm
Width
7.5mm
País de Origem
Taiwan, Province Of China
Detalhes do produto
Si84x Series Digital Isolators
The CMOS digital isolators gives the ability to create small size, high performance, lower power, and reliable isolated circuits that compete with optocoupler designs.
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.