Silicon Labs, Si87xxSOIC8-KIT

  • RS Stock No. 771-0552
  • หมายเลขชิ้นส่วนของผู้ผลิต / Mfr. Part No. Si87xxSOIC8-KIT
  • ผู้ผลิต / Manufacturer Silicon Labs
ข้อมูลทางเทคนิค / Technical Data Sheets
Legislation and Compliance
RoHS Certificate of Compliance
COO (Country of Origin): US
รายละเอียดสินค้า / Product Details

Si87xx LED Emulator Input Isolation Evaluation Boards

The Si87xx Evaluation Kit eases evaluation of the performance of Silicon Laboratories' LED emulator input isolator. The evaluation board is flexible enough to allow both hook-up to lab equipment for detailed spec evaluation as well as connection to an existing board. The evaluation board is jumper-configurable for different device configurations and different drive schemes.
The Si87xx isolators are pin-compatible, single-channel, drop-in replacements for popular optocouplers with data rates up to 15Mbps. These devices isolate high-speed signals and offer performance, reliability, and flexibility advantages not available with optocoupler solutions.

Two evaluation boards are available, each with a different package option:
795-1595 LGA8 package
795-1598 SDIP6 package

Pin-compatible, drop-in upgrades for popular high-speed digital optocouplers
Resistant to temperature, age and forward current effects
10x lower FIT rate for longer service life
Higher common-mode transient immunity: 50 kV/μs typical
Lower power and lower input current
PCB footprint compatible with standard optocoupler packaging
LED emulator input
3 to 30V Open Collector output
Propagation delay: 30ns (typical)
Max data rate: 15Mbps
3.75kV reinforced isolation
Operating temperature range: -40 to +125°C

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.