Data Sheet
Table Of Contents
- General description
- Module description
- Power consumption
- Functional capabilities
- Benefits
- More information
- References
- Development environments
- Technical support
- Contents
- 1 Overview
- 2 Pad connection interface
- 3 Recommended host PCB layout
- 4 Module connections
- 5 Connections and optional external components
- 6 Functional description
- 7 Integrated radio transceiver
- 8 Peripheral and communication interfaces
- 9 Keyboard scanner
- 10 Clock frequencies
- 11 GPIO port
- 12 PWM
- 13 Power management unit
- 14 Electrical characteristics
- 15 Chipset RF specifications
- 16 Timing and AC characteristics
- 17 Environmental specifications
- 18 Regulatory information
- 19 Packaging
- 20 Ordering information
- 21 Acronyms
- 22 Document conventions
- Revision History
Preliminary Datasheet 36 of 58 002-33419 Rev. **
2021-07-22
AIROC™ Bluetooth® LE module
Chipset RF specifications
15 Chipset RF specifications
All specifications in Table 15 are for industrial temperatures and are single-ended. Unused inputs are left open.
Table 15 Receiver RF Specifications
Parameter Conditions Min Typ
[7]
Max Unit
General
Frequency range – 2402 – 2480 MHz
RX sensitivity
[8]
– – –91.5 – –
Maximum input GFSK, 1 Mbps – – –20 dBm
Interference performance
TBD
Out-of-band blocking performance (CW)
[9]
30 MHz–2000 MHz 0.1% BER – –10.0 –
dBm
2000–2399 MHz 0.1% BER – –27 –
2498–3000 MHz 0.1% BER – –27 –
3000 MHz–12.75 GHz 0.1% BER – –10.0 –
Intermodulation performance
[10]
BT, Df = 4 MHz – –39.0 – – dBm
Spurious Emissions
[11]
30 MHz to 1 GHz – – – –62
dBm
1 GHz to 12.75 GHz – – – –47
65 MHz to 108 MHz FM RX – –147 –
dBm/Hz
746 MHz to 764 MHz CDMA – –147 –
851–894 MHz CDMA – –147 –
925–960 MHz EDGE/GSM – –147 –
1805–1880 MHz EDGE/GSM – –147 –
1930–1990 MHz PCS – –147 –
2110–2170 MHz WCDMA – –147 –
Notes
7. Typical operating conditions are 1.22-V operating voltage and 25°C ambient temperature.
8. The receiver sensitivity is measured at BER of 0.1% on the device interface.
9. Meets this specification using front-end band pass filter.
10.f0=–64 dBm Bluetooth®-modulated signal, f1=–39 dBm sine wave, f2=–39 dBm Bluetooth®-modulated
signal, f0=2f1–f2, and |f2 – f1|=n*1MHz, where n is 3, 4, or 5. For the typical case, n = 4.
11.Includes baseband radiated emissions.