SWRA465A August   2014  – July 2015 CC2530 , CC2530 , CC2530-RF4CE , CC2530-RF4CE , CC2592 , CC2592

 

  1.   Using CC2592 Front End With CC2530
    1.     Trademarks
    2. Introduction
    3. Acronyms Used in This Documents
    4. Absolute Maximum Ratings
    5. Electrical Specifications
      1. 4.1 Operating Conditions
      2. 4.2 Current Consumption
      3. 4.3 Receive Parameters
      4. 4.4 Received Signal Strength Indicator (RSSI)
      5. 4.5 Transmit Parameters
      6. 4.6 Output Power Programming
      7. 4.7 Typical Performance Curves
      8. 4.8 IEEE - Transmit Power Spectral Density (PSD) Mask
    6. Application Circuit
      1. 5.1 Power Decoupling
      2. 5.2 Input /Output Matching and Filtering
      3. 5.3 Bias Resistor
      4. 5.4 Antenna Considerations
    7. PCB Layout Considerations
      1. 6.1 The Gain of the CC2592
    8. Regulatory Requirements
      1. 7.1 Compliance of FCC Part 15.247 When Using the CC2530 With the CC2592
    9. Controlling the CC2592
    10. Integrating CC2592 With Z-Stack and TIMAC
    11. 10 References
  2.   A Marker - Delta Method
    1.     A.1
  3.   Revision History

6.1 The Gain of the CC2592

Changing the layout or the stack-up of the reference design affects the RF performance of the CC2592. Due to all the contributors to the CC2592 performance, a few observations can be made on how changing layout and PCB stack-up affects the amplifier:

  • Bad soldering of the ground paddle can reduce the gain significantly.
  • Too few or too long vias reduce the gain significantly. Because of this, a checkered pattern of vias and solder paste, and a 4-layer PCB with the ground plane close to the top layer was chosen for the SimpleLink™ ZigBee® Network Range Extender Reference Design[3].