The ZL70323 implantable radio module implements all RFrelated functions needed to deploy the implantable node in a MICS-band RF telemetry system. The integrated antenna tuning circuit allows the module to be used with a wide range of implantable antennas (nominal antenna impedance is 100+j150Ω). Figure 1 shows the module’s major subsystems: • ZL70103-based M.
• Complete ZL70103-based MICS-Band1 RF Telemetry Radio Solution
• Implantable Radio Module Designed to Enable Rapid Development of Implantable Medical Devices
• Implant-Grade Quality Assurance
• Ultracompact Design and Small Size (4.5×5.5×1.6mm)
• RX Sensitivity of −102dBm at 200kbit/s (with packet error rate of 10%)
• Additional Lower Data Rates Available (40/18.18kbit/s)
• Designed to Meet Regulatory Requirements (FDA, FCC, ETSI, and IEC)
Description
The ZL70323 implantable radio module implements all RFrelated functions needed to deploy the implantable node in a MICS-band RF telemetry syst.
No. | Partie # | Fabricant | Description | Fiche Technique |
---|---|---|---|---|
1 | ZL70321 |
Microsemi |
MICS-Band RF Standard Implant Module | |
2 | ZL70002 |
Zarlink Semiconductor |
Medical Surge Protection Devices | |
3 | ZL70008 |
Zarlink Semiconductor |
Medical Surge Protection Devices | |
4 | ZL70009 |
Zarlink Semiconductor |
Medical Surge Protection Devices | |
5 | ZL70010 |
Zarlink Semiconductor |
Medical Surge Protection Devices | |
6 | ZL70100 |
Zarlink Semiconductor |
Medical Implantable RF Transceiver | |
7 | ZL70101 |
Zarlink Semiconductor |
Medical Implantable RF Transceiver | |
8 | ZL70101 |
Microsemi |
Medical Implantable RF Transceiver | |
9 | ZL70103 |
Microsemi |
Medical Implantable RF Transceiver | |
10 | ZL70250 |
Zarlink Semiconductor |
Ultra-Low-Power Sub-GHz RF Transceiver | |
11 | ZL70251 |
Microsemi |
Ultra-Low-Power Sub-GHz RF Transceiver | |
12 | ZL0805W |
ETC |
Green Low Power Switching Power Supply Controller |