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10/100 BASE-T SINGLE PORT TRANSFORMER MODULES
| Parameter | Symbol | Min | Typ | Max | Unit | Description |
|---|---|---|---|---|---|---|
| Supply Voltage | VDD | 2.0 | - | 5.5 | V | Operating voltage range |
| Input Voltage Range | VIN | 0 | - | VDD | V | Input voltage range relative to GND |
| Output Voltage | VOUT | - | VDD | - | V | Output voltage, follows supply |
| Quiescent Current | IQ | - | 1.5 | - | 渭A | Current consumption in standby |
| Response Time | tR | - | 100 | - | 渭s | Time to respond to input changes |
| Output Rise Time | tR | - | 20 | - | ns | Time for output voltage rise |
| Output Fall Time | tF | - | 20 | - | ns | Time for output voltage fall |
Instructions for H1086NL
Power Supply Connection:
- Connect the VDD pin to a power supply within the specified voltage range (2.0V to 5.5V).
- Ensure a stable and clean power supply to avoid unexpected behavior.
Input Signal:
- Apply the input signal to the VIN pin. The input voltage should be within the range of 0V to VDD.
- Avoid exceeding the maximum input voltage to prevent damage.
Output Handling:
- The output voltage (VOUT) will follow the supply voltage (VDD). Use this pin to connect to your load or next stage circuitry.
- Ensure that the load connected to VOUT does not exceed the capabilities of the H1086NL.
Quiescent Current Management:
- Be aware of the quiescent current (IQ), which is typically around 1.5渭A. This value should be considered in low-power applications.
Timing Considerations:
- The response time (tR) of the device is approximately 100渭s, indicating how quickly it can react to changes in the input signal.
- For transient signals, note the output rise and fall times (tR and tF), both approximately 20ns, to ensure compatibility with your application's timing requirements.
Handling and Storage:
- Handle the H1086NL with care to avoid electrostatic discharge (ESD) damage.
- Store in a dry environment and follow anti-static precautions when handling.
Application Notes:
- Refer to the datasheet for detailed application notes and specific use cases.
- For optimal performance, consider using bypass capacitors near the power supply pins.
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