43.29 Bluetooth Low Energy RF Characteristics

Table 43-38. Bluetooth Low Energy RF Characteristics
AC CharacteristicsStandard Operating Conditions: VDD = 1.9V to 3.6V (unless otherwise stated) Operating Temperature: -40°C ≤ TA ≤ +85°C for Industrial Temp -40°C ≤ TA ≤ +125°C for Extended Temp
Param. No.SymbolCharacteristicsMin.Typ.(1)Max.UnitsConditions(2)
BTG1FREQFrequency range of operation24022480MHz
BTTX1TXPWR:PABluetooth® transmit power PA11dBm
BTX2TXIB:1MBPSIn-band emission for FTX ± -2 MHz-40dBm
In-band emission for FTX ± -(3+N) MHz-46dBm
BTX3TXIB:2MBPSIn-band emission for FTX ± -4 MHz-41dBm
In-band emission for FTX ± -5 MHz-52dBm
In-band emission for FTX ± -(6+N) MHz-53dBm
BTRX1RXSENSEReceiver sensitivity at 1 Mbps-98dBm
Receiver sensitivity at 2 Mbps-94.5dBm
Receiver sensitivity at S=8-108dBm
Receiver sensitivity at S=2-102.5dBm
BTRX2MAXINSIGMaximum input signal level at 1 Mbps-2dBm
Maximum input signal level at 2 Mbps-2dBm
Maximum input signal level at S=2-2dBm
Maximum input signal level at S=8-2dBm
BTRX3CI1M:COCHC/I Co channel rejection14dB
CI1M: ± -1 MHzC/I adjacent channel rejection16dB
CI1M: ± -2 MHzC/I adjacent channel rejection7dB
CI1M:ADJ(3+n)C/I alternate channel rejection8dB
CI1M:IMGC/I image frequency rejection12dB
CI1M:IMG ± -1 MHzC/I adjacent channel to image freq rejection11dB
BTRX4CIS2:COCHC/I Co channel rejection9dB
CIS2: ± -1 MHzC/I adjacent channel rejection20dB
CIS2: ± -2 MHzC/I adjacent channel rejection15dB
CIS2:ADJ(3+n)C/I alternate channel rejection7dB
CIS2:IMGC/I image frequency rejection15dB
CIS2:IMG ± -1 MHzC/I adjacent channel to image freq rejection13dB
BTRX5CIS8:COCHC/I Co channel rejection5dB
CIS8: ± -1 MHzC/I adjacent channel rejection20dB
CIS8: ± -2 MHzC/I adjacent channel rejection11dB
CIS8:ADJ(3+n)C/I alternate channel rejection3dB
CIS8:IMGC/I image frequency rejection11dB
CIS2:IMG ± -1 MHzC/I adjacent channel to image freq rejection15dB
BTRX6CI2M:COCHC/I Co channel rejection13dB
CI2M: ± -2 MHzC/I adjacent channel rejection14dB
CI2M: ± -4 MHzC/I adjacent channel rejection12dB
CI2M:ADJ(6+2n)C/I alternate channel rejection15dB
CI2M:IMGC/I image frequency rejection14dB
CI2M:IMG ± -2 MHzC/I adjacent channel to image freq rejection13dB
BTRX7BLOCK1M:<2 GHZBlocking performance from 30-2 GHz20dB
BLOCK1M:2 GHZ<SIG<2399 MHzBlocking performance from 2003-2399 MHz19dB
BLOCK1M:2484 MHZ<SIG<2977 MHzBlocking performance between 2484-2997 MHz20dB
BLOCK1M:3 GHZ<SIG<12.75 GHzBlocking performance between 3-12.5 GHz20dB
BTRX8BLE1M:INTERMODInter modulation performance for BLEM10.5dB
BLE2M:INTERMODInter modulation performance for BLEM11.5dB
Note:
  1. Data in the “Typ” column is at TA = 25°C.
  2. This parameter is characterized but not tested in manufacturing.
Table 43-39. Bluetooth Low Energy RF Current Characteristics
AC Characteristics(3)Standard Operating Conditions: VDD = 1.9V to 3.6V (unless otherwise stated) Operating Temperature: -40°C ≤ TA ≤ +85°C for Industrial Temp -40°C ≤ TA ≤ +125°C for Extended Temp
Param. No.SymbolCharacteristicsRF PowerCPU FrequencyMin.Typ.(1)Max.UnitsConditions(2)
IBLETX1IDDTXPA1MCurrent Consumption with TX in MLDO mode 1 Mbps+11 dBm64 MHz49mA
IBLETX2+11 dBm32 MHz45.5mA
IBLETX310 dBm64 MHz44mA
IBLETX410 dBm32 MHz40mA
IBLETX50 dBm64 MHz26mA
IBLETX60 dBm32 MHz22mA
IBLERX1IDDRXBLE1M

Current consumption at RX signal MLDO mode

-90 dBm64 MHz20mA
IBLERX2

Current consumption at RX signal MLDO mode

-90 dBm32 MHz16mA

Note:
  1. Data in the “Typ” column is at VDD = 3.3V, TA = 25°C.
  2. This parameter is characterized but not tested in manufacturing.
  3. The current number includes the FW default operation current consumption.
Figure 43-17. Bluetooth Low Energy Transmit Power vs. Frequency
Figure 43-18. Bluetooth Low Energy Transmit Power vs. Temperature
Figure 43-19. Bluetooth Low Energy Transmit Power vs. Transmit Power Level
Figure 43-20. Bluetooth Low Energy Receive Sensitivity vs. Temperature
Figure 43-21. WBZ35x Module Bluetooth Low Energy Receive Sensitivity vs. Temperature
Figure 43-22. Bluetooth Low Energy Receive Sensitivity vs. Frequency
Figure 43-23. WBZ35x Module Bluetooth Low Energy Receive Sensitivity vs. Frequency
Figure 43-24. Bluetooth Low Energy Transmit Power vs. VDD Supply Voltage
Figure 43-25. Bluetooth Low Energy Receive Sensitivity vs. VDD Supply Voltage
Figure 43-26. Bluetooth Low Energy RX CI Margin
Figure 43-27. Bluetooth Low Energy Transmit Current vs. Temperature
Figure 43-28. Bluetooth Low Energy Receive Current vs. Temperature