Allicdata Part #: | OL2382AHNY-ND |
Manufacturer Part#: |
OL2382AHNY |
Price: | $ 2.35 |
Product Category: | Uncategorized |
Manufacturer: | NXP USA Inc |
Short Description: | INDUSTRIAL RF TRANSCEIVER |
More Detail: | N/A |
DataSheet: | OL2382AHNY Datasheet/PDF |
Quantity: | 1000 |
4000 +: | $ 2.13620 |
Series: | * |
Part Status: | Active |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
The OL2382AHNY is a device with specific purpose applications in variety of high-tech industries. It contains many features such as an adjustable frequency output, a temperature compensated crystal oscillator, DC regulated control, adjustable hysteresis, and over-current protection. The OL2382AHNY is suitable for manufacturing switch mode power supplies, switching regulators, motor drives, actuator controls, and low voltage monitoring systems. All of these features make the device well-suited for many applications.
The OL2382AHNY works as an output device limiter. It senses over-current information from its input, compares it to its reference voltage, and either turns on the output device or turns off the output device depending on its internal logic. It has two sets of pins, one is the power supply pins and the other is the device pinouts. The power supply pins connect to the power supply and the device pinouts are the pinouts for the device.
The output device limits for the OL2382AHNY is set at the internal logic level. When the logic level is exceeded, the device turns off the output device. This helps to protect the device from current over load or any other potential issues that may arise due to an over current condition. The other protection feature of the OL2382AHNY are temperature compensation, which prevents it from overheating and DC regulated control.
The OL2382AHNY is also equipped with adjustable frequency output. This feature is important for some applications since the frequency output must be adjusted to certain levels in order for the device to function properly. Its adjustable frequency output can be used in applications such as controlling the speed of motors, power switching, or other applications where the frequency may need to be adjusted.
The OL2382AHNY also has adjustable hysteresis. This feature allows the device to change its state even if the input level does not change. This is useful in applications such as switching regulators, motor drives, and over-current protection. By adjusting the hysteresis, the device can be programmed to respond to certain levels.
In summary, the OL2382AHNY is a versatile device with many features making it suitable for many high-tech applications. Its features such as adjustable frequency output, temperature compensated crystal oscillator, DC regulated control, adjustable hysteresis, and over-current protection make the device a great choice for manufacturing switch mode power supplies, switching regulators, motor drives, actuator controls, and low voltage monitoring systems.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
---|
OL2382AHNY | NXP USA Inc | 2.35 $ | 1000 | INDUSTRIAL RF TRANSCEIVER |
OL2300NHN/F,118 | NXP USA Inc | 0.57 $ | 1000 | TRANSMITTER PLL FRACT-N 1... |
OL2385AHN/00100Y | NXP USA Inc | 2.17 $ | 4000 | RF WIRELESS PLATFORM UHFI... |
OL2381AHN/C0B,515 | NXP USA Inc | 1.56 $ | 24000 | IC RF TXRX ISM ... |
OL2385AHN/001A1Y | NXP USA Inc | 2.17 $ | 4000 | LOW-POWER MULTI-CHANNEL U... |
OL2311AHN/C0B,515 | NXP USA Inc | 1.23 $ | 1000 | RECEIVER PLL FRACT-N 32HV... |
OL2385AHN/001B0Y | NXP USA Inc | 2.17 $ | 1000 | LOW-POWER MULTI-CHANNEL U... |
OL2385AHN/001C0Y | NXP USA Inc | 2.17 $ | 1000 | LOW-POWER MULTI-CHANNEL U... |
OL2385AHN/001A0Y | NXP USA Inc | 0.0 $ | 1000 | LOW-POWER MULTI-CHANNEL U... |
OL2385AHNY | NXP USA Inc | 0.0 $ | 1000 | IC MCU WIRELESS BT 48HVQF... |
DIODE GENERAL PURPOSE TO220
CB 6C 6#16 SKT RECP
CA08COME36-3PB-44
CA-BAYONET
CB 6C 6#16S SKT PLUG
CAC 3C 3#16S SKT RECP LINE