Please, find the important link to build a PCB using a KW45 or K32W1 & MCX W71 and all concerning the radio performances, low power and radio certification (CE/FCC/IC).
KW45 product NXP web page:
K32W1 product NXP web page:
MCX W71 product NXP web page:
KW45-EVK getting started NXP web page:
https://www.nxp.com/document/guide/getting-started-with-the-kw45b41z-evaluation-kit:GS-KW45B41ZEVK
K32W1-EVK getting started NXP web page:
FRDM-MCXW71 / MCXW71-EVK getting started NXP web page:
https://www.nxp.com/document/guide/getting-started-with-frdm-mcxw71:GS-FRDM-MCXW71
HARDWARE
KW45-EVK HW guideline: Hardware Design Considerations for KW45B41Z and K32W148 Bluetooth LE Devices (nxp.com)
MCXW W71 HW guideline: MCXW71 Hardware Design Guide
KW45B41Z-EVK User Manual https://www.nxp.com/docs/en/user-manual/KW45B41Z-EVKUM.pdf
K32W1-EVK User Manual: K32W148-EVK Board User Manual (nxp.com)
FRDM-MCXW71 USer Manual: FRDM-MCXW71 Board User Manual
Minimum BoM (attached file)
DCDC management guide (AN13831) : KW45/K32W148 - Power Management Hardware (nxp.com)
Migration guide: KW38 to KW45: Available on demand
Design-In check list: excel file attached
RF matching: S parameters (attached file)
ESD: Please note as raised in the KW45 datasheet, the ElectroStatic Discharge of the RF antenna pin is +/-250V (change-device model). In case the targeted system need to pass larger ESD target then an external ESD diode is recommended. The following reference are foressen as acceptable : Nexperia PESD5V0C1BLS-Q, littlefuse SP3522-01ETG, SPSEMI AUSD05CBL.
Information: “As RF behavior are dependent of PCB layout & manufacturing; PCB prototypes (based on NXP recommendations) will have to be fine-tuned to insure the expected qualified in RF is reached on the final productized platform.”
RADIO
FRDM-MCXW71 RF System Evaluation Report for Bluetooth LE and IEEE 802.15.4 Applications
Radio co-existence: Kinetis Wireless Family Products Bluetooth Low Energy Coexistence with Wi-Fi Application (nxp.com)
Distance performances: refer to attached file
Compact Planar Antennas for 2.4 GHz Communication Designs and Applications within NXP EVK Boards
Antennas for Channel Sounding Applications
Generic FSK Link Layer Quick Start (attached file)
BLE connectivity test binary file: SDK_x_xx_x_KW45B41Z-EVK\boards\kw45b41zevk\wireless_examples\genfsk\connectivity_test\bm\iar\
K32W148 Connectivity Test for 802.15.4 Application (nxp.com)
Return loss (S11) measurement: How to measure the return loss of your RF matching (S11)
part of the RF report (AN13728)
Loadpull: Kinetis KW45 and K32W148 Loadpull Report (nxp.com) ; MCX W71 Loadpull Report
SW tools:
IoT Tool box (mobile application)
Connectivity test tool for connectivity products (part of the IoT toolbox)
DTM: How to use the HCI_bb on Kinetis family products a... - NXP Community
CRYSTAL
Article 1 : KW45/K32W1 32MHz & 32kHz Oscilllation margins - NXP Community
Article 2 : KW45/K32W1 32MHz & 32kHz Oscilllation margins
KW36 - Trimming adjust of 32MHz XTAL external osci... - NXP Community
KW45 / MCX W71 - Trimming adjust of 32MHz & 32kHz external crystals - NXP Community
LOW POWER
Estimator Tool
Low Power Consumption: https://www.nxp.com/docs/en/application-note/AN13230.pdf
MCX W71 Bluetooth LE Power Consumption Analysis
CERTIFICATION
|
KW45 |
European Union Declaration of Conformity for KW45B41Z-EVK Evaluation Kit |
| K32W148 |
European Union Declaration of Conformity for K32W148-EVK Evaluation Kit |
Hi, I am looking the "minimum BOM" document. At the end, there is a table with con-cell operation recommendation:
Is this OK? 10dBm <1mA, ... 0dBm : 4,5mA ?
