The SGM2596 and SGM2596D are 16mΩ (TYP) on-resistance, integrated two N-MOSFETs, dual-channel load switches. The devices can operate over a wide input voltage range of 0.6V to 5.7V. Each channel can support a 6A maximum continuous load current and is independently controlled by the ONx pin (ON1 or ON2). The VOUTx rise time can be programmed by setting an additional capacitor to the CTx pin.
The devices have thermal shutdown function. When the junction temperature exceeds +160 ℃ , the inner N-MOSFET will be turned off through the thermal shutdown circuitry, and will remain off until the die temperature drops below +140℃. The SGM2596D also has quick output discharge function when the switch is disabled.
The SGM2596 and SGM2596D are both available in a Green TDFN-3×2-14AL package. They are rated over the -40℃ to +105℃ temperature range.
Input Voltage Range: 0.6V to VBIAS
VBIAS Voltage Range: 2.5V to 5.7V
On-Resistance: 16mΩ/Channel
Maximum Continuous Load Current: 6A/Channel
Quiescent Current: 22μA (TYP)
Support with 1.2V, 1.8V, 2.5V and 3.3V GPIOs
Programmable Output Ramp Time
Thermal Shutdown
Quick Output Discharge (SGM2596D Only)
-40℃ to +105℃ Operating Temperature Range
Available in a Green TDFN-3×2-14AL Package
Notebook and Tablet Computers
Portable and Handheld Devices
Set-Top Boxes and Residential Gateways
Solid-State Drives (SSD)
Part Number | Status | Package | Pins | Pd-Free | RoHS | REACH | Green | MSL Rating | Operating Temperature Range | Material Content | Reliability Report | Unit Resale Price* (Volume Range: in USD) | Lead Time** (Volume Range: Days) | |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
SGM2596GTES14G/TR | 量产 | TDFN-3×2-14AL | 14 | Yes | Yes | Yes | Yes | MSL1 | -40℃ to +105℃ | 查看 | 查看 | 1-24 units : $0.7/unit 25-99 units : $0.6/unit 100-249 units : $0.5/unit 250-499 units : $0.4/unit 500-999 units : $0.35/unit 1000-9999 units : $0.26/unit | 3K-9K : 14 days 10K-99K : 35 days 100K-999K : 70 days 1000K and above : 98 days |
* 价格仅供参考。请联系我们的经销商获取正式报价。
** 交货时间仅供参考,可能会根据不同情况而发生变化。