- RS Stock No.:
- 171-6991
- Mfr. Part No.:
- BD9486F-GE2
- Manufacturer:
- ROHM
40 In stock for delivery within 4 working days
Added
Price (VAT excluded) Each (In a Pack of 10)
TWD33.30
(exc. GST)
TWD34.96
(inc. GST)
Units | Per unit | Per Pack* |
10 - 90 | TWD33.30 | TWD333.00 |
100 - 240 | TWD32.50 | TWD325.00 |
250 - 490 | TWD31.70 | TWD317.00 |
500 - 990 | TWD30.90 | TWD309.00 |
1000 + | TWD30.10 | TWD301.00 |
*price indicative |
- RS Stock No.:
- 171-6991
- Mfr. Part No.:
- BD9486F-GE2
- Manufacturer:
- ROHM
Legislation and Compliance
- COO (Country of Origin):
- JP
Product Details
ROHM LED Driver
The ROHM BD9486F series is a high-efficiency LED driver for white LEDs and designed for a large LCD panel. It has a boost DC-DC converter that employs an array of LEDs as the light source. This driver has some protective function against fault conditions, such as the over-voltage protection (OVP), the overcurrent limit protection of DCDC (OCP), LED OCP protection and over boost protection (FBMAX). Therefore, it is available for a fail-safe design over a wide range output voltage.
Features and Benefits
• Operating power supply voltage ranges between 9.0V and 18.0V
• Oscillator frequency of DCDC is 150kHz
• Operating current is 2.6mA
• Operating temperature ranges between -40°C and 85°C
• Adjustable soft start
• Wide range of analogue dimming ranges between 0.2V and 3.0V
• UVLO detection for the input voltage of the power stage
• Oscillator frequency of DCDC is 150kHz
• Operating current is 2.6mA
• Operating temperature ranges between -40°C and 85°C
• Adjustable soft start
• Wide range of analogue dimming ranges between 0.2V and 3.0V
• UVLO detection for the input voltage of the power stage
Applications
• Computer display
• LCD backlighting
• TV
• LCD backlighting
• TV
Specifications
Attribute | Value |
---|---|
Input Voltage | 9 → 18 V |
AC or DC Input Voltage | dc |
Dimming Operation | Analogue |
Application | TV, Computer Display, LCD Backlighting |
Package Type | SOP16 |
Number of Pins | 16 |
Current Rating | 5.2mA |