MATRIX TRANSCEIVER MODULES
ZMXM-400 Series
Integrated Transceiver Module for ZigBee / IEEE 802.15.4
Evaluation Kits available
DESCRIPTION
effective solution for data links and wireless networks. The module design is
based on the IEEE 802.15.4 standard and supports peer-to-peer, star,
and mesh networking. The Matrix module is offered with two trans-
mitter output power options, either 10mW or 100mW, providing for
The Matrix module is a 2.4 GHz IEEE 802.15.4 RF transceiver providing a cost-
enhanced range performance over standard IEEE 802.15.4/ZigBee
implementations with the integrated power amplifier. Additionally, each
module offers a Dynamic Power Configuration capability giving the ability to
imperative.
bypass the power amplifier for a 1mW power output when low power operation is
The Matrix module consists of the Texas Instruments CC2430, 10mW or 100mW Power Amplifier, and integrated PCB
trace antenna. The module has the option to be populated with a MMCX connector for use with an external cabled
ules provide the lowest cost, best in class performance, in a compact form factor.
antenna. The module is FCC, IC, and CE certified for fast and simple integration into end applications. The Matrix mod-
FEATURES
•
Supports LS Research or Z-Stack™ protocols
•
Miniature Footprint:
10mW ( 23.4 x 28.7 mm)
100mW (23.4 x 31.2 mm)
•
Integrated certified PCB trace antenna
•
Optional MMCX connector for external antenna
•
16 RF channels
(Channel 16 operates at reduced power levels)
•
Long Range:
10mW - up to 2000 feet
100mW - up to 4000 feet
•
Output power software controlled:
1mW - 10mW or
1mW - 100mW
•
17 General Purpose I/O ports
•
Windows® Based Test Tools
•
Serial UART interface
•
Lowest Power Consumption
•
Compliance Certification:
10mW - FCC (USA), IC (Canada), and CE (Europe) certification
100mW - FCC (USA) and IC (Canada) certification
•
RoHS compliant
The information in this document is subject to change without notice, please confirm data is current
Document No: 0004-00-07-00-000 (Issue C)
Date Published: December 4, 2009