Overview
The HMC433ETR is a low noise Divide-by-4 Static Divider produced by Analog Devices Inc. This device utilizes InGaP GaAs HBT (Heterojunction Bipolar Transistor) technology and is packaged in an ultra-small surface mount SOT26 plastic package. It operates from DC to 8 GHz input frequency with a single +3V DC supply, making it highly versatile for various RF and microwave applications.
Key Specifications
| Parameter | Value | Unit |
|---|---|---|
| Input Frequency Range | DC to 8 | GHz |
| Supply Voltage | 3V ± 0.3V | V |
| RF Input Power | 15 | dBm |
| Operating Temperature | -40 to +85 | °C |
| Storage Temperature | -65 to +125 | °C |
| Junction Temperature (for 1 Million Hour MTTF) | 135 | °C |
| Thermal Resistance (Junction to GND Paddle) | 83 | °C/W |
| Package Type | SOT26 | - |
Key Features
- Low noise performance with low additive SSB phase noise.
- Single-ended inputs and outputs, reducing component count and cost.
- Operates with a single +3V DC supply.
- Ultra-small surface mount SOT26 plastic package.
- Wide operating temperature range from -40°C to +85°C.
Applications
The HMC433ETR is suitable for a variety of RF and microwave applications, including:
- Wireless communication systems.
- Radar systems.
- Satellite communications.
- Test and measurement equipment.
- Phase Locked Loop (PLL) synthesizers and translation loops.
Q & A
- What is the input frequency range of the HMC433ETR?
The input frequency range is from DC to 8 GHz.
- What is the supply voltage for the HMC433ETR?
The supply voltage is +3V ± 0.3V.
- What is the maximum RF input power for the HMC433ETR?
The maximum RF input power is 15 dBm.
- What is the operating temperature range for the HMC433ETR?
The operating temperature range is from -40°C to +85°C.
- What package type is used for the HMC433ETR?
The package type is SOT26.
- What technology is used in the HMC433ETR?
The device utilizes InGaP GaAs HBT technology.
- What are the key features of the HMC433ETR?
Key features include low noise performance, single-ended inputs and outputs, and operation with a single +3V DC supply.
- What are some common applications for the HMC433ETR?
Common applications include wireless communication systems, radar systems, satellite communications, test and measurement equipment, and PLL synthesizers.
- How does the HMC433ETR reduce component count and cost?
The device reduces component count and cost by using single-ended inputs and outputs.
- What is the thermal resistance of the HMC433ETR?
The thermal resistance (junction to GND paddle) is 83 °C/W.
