Infineon PWM Controller, 250 kHz 27 V 8-Pin, PG-DSO
- RS stock no.:
- 244-1587
- Mfr. Part No.:
- ICE2QS02GXUMA1
- Manufacturer:
- Infineon
Image representative of range
Bulk discount available
Subtotal (1 reel of 2500 units)*
R 27 812,50
(exc. VAT)
R 31 985,00
(inc. VAT)
FREE delivery for orders over R 1,500.00
Temporarily out of stock
- Shipping from 05 June 2026
Need more? Click ‘Check delivery dates’ to find extra stock and lead times.
Units | Per unit | Per Reel* |
|---|---|---|
| 2500 - 2500 | R 11.125 | R 27,812.50 |
| 5000 - 5000 | R 10.847 | R 27,117.50 |
| 7500 + | R 10.522 | R 26,305.00 |
*price indicative
- RS stock no.:
- 244-1587
- Mfr. Part No.:
- ICE2QS02GXUMA1
- Manufacturer:
- Infineon
Specification
Technical data sheets
Legislation and Compliance
Product Details
Find similar products by selecting one or more attributes.
Select all | Attribute | Value |
|---|---|---|
| Brand | Infineon | |
| Maximum Switching Frequency | 250kHz | |
| Product Type | PWM Controller | |
| Start-up Supply Current | 300μA | |
| Supply Current | 1.5mA | |
| Output Voltage | 10 V | |
| Zero Power Detection | Yes | |
| Mount Type | Surface | |
| Minimum Supply Voltage | -0.3V | |
| Package Type | PG-DSO | |
| Maximum Supply Voltage | 27V | |
| Topology | Flyback | |
| Pin Count | 8 | |
| Minimum Operating Temperature | -25°C | |
| Maximum Operating Temperature | 125°C | |
| PWM Controller Type | Resonant | |
| Height | 1.73mm | |
| Standards/Approvals | RoHS | |
| Width | 4 mm | |
| Series | ICE2QS02G | |
| Length | 5mm | |
| Automotive Standard | No | |
| Select all | ||
|---|---|---|
Brand Infineon | ||
Maximum Switching Frequency 250kHz | ||
Product Type PWM Controller | ||
Start-up Supply Current 300μA | ||
Supply Current 1.5mA | ||
Output Voltage 10 V | ||
Zero Power Detection Yes | ||
Mount Type Surface | ||
Minimum Supply Voltage -0.3V | ||
Package Type PG-DSO | ||
Maximum Supply Voltage 27V | ||
Topology Flyback | ||
Pin Count 8 | ||
Minimum Operating Temperature -25°C | ||
Maximum Operating Temperature 125°C | ||
PWM Controller Type Resonant | ||
Height 1.73mm | ||
Standards/Approvals RoHS | ||
Width 4 mm | ||
Series ICE2QS02G | ||
Length 5mm | ||
Automotive Standard No | ||
Infineon Pwm Controller, 250kHz Maximum Switching Frequency, 10V Output Voltage - ICE2QS02GXUMA1
This PWM controller is a quasi-resonant device designed for efficient power supply management in various applications. With a compact PG-DSO package measuring 5 x 4 x 1.73 mm, it includes advanced features for optimising switching frequencies and enhancing performance across a range of load conditions.
Features & Benefits
• Quasi-resonant operation increases system efficiency and reduces EMI
• Built-in digital frequency reduction enhances average efficiency
• Cycle-by-cycle peak current limitation enhances safety during operation
• Adjustable blanking time ensures effective overload protection
• Short winding protection features safeguard against transformer damage
Applications
• Utilised in off-line power supply designs for LCD televisions
• Applicable in audio equipment power management systems
• Designed for use in printer power supply circuits
• Ideal for requiring an auxiliary power converter
How does the peak current limitation function in this controller?
The device incorporates cycle-by-cycle current limiting, which involves sensing the source current through a shunt resistor. If the sensed voltage exceeds a pre-set limit, the gate drive is immediately turned off, preventing potential overcurrent situations.
What protection features are included to prevent system failures?
It has multiple protection functions including adjustable overload protection, undervoltage lockout, and output overvoltage detection, which effectively ensure the system remains operational without failure during unusual conditions.
How is digital frequency reduction implemented in the design?
The controller features a digital signal processing circuit that monitors load levels, enabling it to reduce switching frequency dynamically as load conditions change, which leads to enhanced energy efficiency across varying operational states.