China BGS672 Return Path Gain Block 5 – 100 MHz factory and manufacturers | Qianjin
The BGS 672 is a wind bandwidth return path gain block. It provides high gain, low noise, and excellent linearity from 5 to 100 MHz. It is optimized for exceptionally low distortion and low noise figure in a 75 Ω amplifier circuit. It provides excellent input and output return loss over the CATV return path HFC infrastructure.
The device package is complied with standard SOT-115J.
Features
1.25 dB Gain
2.24 V DC Bias
3.42 dBmV/CH Output Power Level
4.Excellent Linearity
5.Superior Return Loss Performance
6.Extremely Low Distortion and Low Noise
7.Optimal Reliability
8. Unconditionally Stable Under All Terminations
9. 130 mA Max. at 24 VDC
Applications
1.5 to 100 MHz CATV Return Path Amplifier Systems
Electrical Specifications: T = +25 °C, V = 24 V, Zin = Zout = 75 Ω
| Parameter |
Units |
Min. |
Typ. |
Max. |
Test Conditions |
| Gain |
dB |
- |
25.0 |
- |
5 – 100 MHz |
| Slope |
dB |
- |
- |
0.5 |
5 – 100 MHz |
| Flatness |
dB |
- |
±0.5 |
- |
5 – 100 MHz |
| Noise Figure |
dB |
- |
5.0 |
- |
5 – 100 MHz |
| Input Return Loss |
dB |
18 |
- |
20 |
5 – 100 MHz |
| Output Return Loss |
dB |
18 |
- |
20 |
5 – 100 MHz |
| Total Current Consumption (DC) |
mA |
- |
- |
130 |
+ 24 V |
| CTB* |
dB |
- |
65 |
- |
Vo=42dBmV |
| d2* |
dB |
- |
67 |
- |
Vo=42dBmV |
| XMOD* |
dB |
- |
60 |
- |
Vo=42dBmV |
* 14 channels, flat.
Handling Procedures
Please observe the following precautions to avoid damage:
Static Sensitivity
Gallium Arsenide Integrated Circuits are sensitive to electrostatic discharge (ESD) and can be damaged by static electricity. Proper ESD control techniques should be used when handling these devices.
Absolute Maximum Ratings
| Parameter |
Unit |
Rating |
| RF Input Level |
dBmV |
65 |
| DC Supply Over-Voltage (5 minutes) |
V |
30 |
| Storage Temperature |
°C |
- 40 to +100 |
| Operating Mounting Base Temperature |
°C |
- 20 to +90 |
Alarm: Exceeding any one or a combination of the Absolute Maximum Rating conditions may cause permanent damage to the device. Extended application of Absolute Maximum Rating conditions to the device may reduce device reliability. Specified typical performance or functional operation of the device under Absolute Maximum Rating conditions is not implied.
