User's Manual
Table Of Contents
- Product Description
- Chipset
- Key Features and Benefits
- Additional Hardware Features
- Data Rates Supported
- Modulation Types Supported
- Security Features
- Quality of Service (QoS) and Value-Added MAC Features
- Antenna Connections
- Manufacturing-Ready Software
- Interfaces
- Physical
- Operating Voltage
- Recommended Operating Temperature Range
- Recommended Operating Humidity Range
- Recommended Storage Temperature Range
- Recommended Storage Humidity Range
- Peak Power Consumption
- Typical Receiver Sensitivity
- Operating Frequencies/Bands
- Maximum Transmit Output Power
- Physical Dimensions
- Modular Installation
- 65-VF320-P2 Antenna Specifications
- Product Labeling
- Product Usage
- Product Documentation
65-VF320-P2
WLAN MiniPCI a/b/g/n Adapter
Product Specification and Modular Installation
Rev 0.2 • http://www.cdmatech.com/products/wlan.jsp • Page 16 of 21
Qualcomm Confidential Information Document # MA423D_H_PS_V2
Maximum Transmit Output Power
In typical end user product operation, actual transmit power will be limited based on local regulatory
requirements and EEPROM configuration.
NOTE: Tx Power and Rx Sensitivity alone are not sufficient to assess MIMO performance in a multipath
environment. The MIMO radio architecture and core DSP algorithms play a far greater role in determining
how well a MIMO radio performs -- a well architected MIMO radio with similar Rx sensitivity as a poorly
designed MIMO radio provides much better performance. Real world benchmark testing is required to
assess the performance of various MIMO radios.
Tx Power 2.4 GHz
IEEE Mode
Per
Chain
(dBm)
Total Tx
Power
(dBm)
11b 21 24
11g 21 24
11n 21 24
Table 12 Tx Power 2.4 GHz
Tx Power 5 GHz
IEEE Mode
Per
Chain
(dBm)
Total Tx
Power
(dBm)
11a 21 24
11n 21 24
Table 13 Tx Power 5 GHz
Physical Dimensions
Weight: 12 grams (including shield)