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-VE240-P1 Antenna Specifications
- Product Labeling
- Product Usage
- Product Documentation
65-VE240-P1
802.11b/g/n MiniPCI Adapter for 2.4 GHz AP Applications
Product Specification and Modular Installation
Rev 0.2 • http://www.cdmatech.com/products/wlan.jsp • Page 11 of 16
Qualcomm Confidential Information Document # 640-00134-01
Operating Frequencies/Bands
Actual channels/frequencies supported for a given country are governed by regulatory requirements and
regulated by EEPROM contents and software
.
Supported 2.4 GHz
Channels
Frequencies Channels Frequencies
Channel Frequency Channel Frequency
1 2412 8 2447
2 2417 9 2452
3 2422 10 2457
4 2427 11 2462
5 2432 12 2467
6 2437 13 2472
7 2442 14 2484
Table 6 Operating Frequencies/Bands
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.