K32W061 Product Information|NXP

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Operating Features

ParameterValue
IDD [typ] (nA)
4.3, 7.4, 9.5, 20.3
Junction Temperature (Min) (℃)
-40
Core: Number of cores (SPEC)
1
Average Current @ 1Hz ODR (nA)
4300000, 7400000, 9500000, 20300000
GPIO
22
Description
High Performance and Ultra-Low-Power MCU for Zigbee®,Thread, and Bluetooth LE 5.0 with Built-in NFC option
Free Programmable CPU
Arm Cortex-M4
Supply Voltage [Min - Max]
1.9, 3.6
Operating Frequency [Max] (MHz)
48
Frequency (Max) (kHz)
48000
Supply Voltage [max] (V)
3.6
Supply Voltage [min] (V)
1.9
ICC [typ] (mA)
20.3
IDD [typ] (uA)
4300, 7400, 9500, 20300
Peripherals
I²C, SPI, UART
Memory Size (B)
152000, 640000
Supply Voltage [Min to Max] (V)
1.9 to 3.6
Peripheral Type
I²C, SPI, UART
SRX [typ] FSK @ 10 kHz BW (dBm)
-100.0
Serial Communication
2 x I²C, 2 x SPI, 2 x UART
Core Type
1 x Arm Cortex-M4
Number of pins
40
Package Style
HVQFN
Peripheral Type
I²C, SPI, UART
SRAM (Bytes)
152000
eTSEC
6
TDM
6
I2C
2
J1850
6
ParameterValue
SLIC
6
Tvj [max] (℃)
125
Security Status
COMPANY PUBLIC
SPI
2
NFC Tag
Y
Max Transmit Power (dBm)
11
Receive Current Consumption (mA)
4.3
Operating Voltage [Min to Max] (V)
1.9 to 3.6
Core Type
Arm Cortex-M has child M3, M33, M4, M4F
Internal Memory Supported
FLASH, SRAM
RX Sensitivity (dBm)
-100
IBIZ LOADER
Arm Cortex-M4
CLOUD_PROD3_NXP_CLOCK_SPEED_MAX
48
UART
2
Flash (kB)
640
Pad supply (V)
1.9 to 3.6
Junction Temperature (Max) (℃)
125
Junction Temperature (Min to Max) (℃)
-40 to 125
CLOUD_PROD2_NXP_CLOCK_SPEED_MAX
48
MCU Internal User Flash (SPEC) (kByte)
640
Transmit Current Consumption (mA)
20.3 @ 10dBm, 7.4 @ 0dBm, 9.5 @ 3dBm
Communication protocol
I²C, SPI, UART
CLOUD PROD - Operating Frequency [Max] (MHz)
48
SRAM (kB)
152
Core Type
Arm Cortex-M4
Arm Core
Arm Cortex-M4
Master Interface
I²C, SPI, UART
Controller Interface
I²C, SPI, UART
Operating Frequency [Max] (MHz)
48

Environmental

Part/12NCPbFreeEU RoHSHalogen FreeRHF IndicatorREACH SVHCWeight (mg)
K32W061K(935385244557)
Yes
Yes
Certificate Of Analysis (CoA)
Yes
DREACH SVHC
98.55816451656
K32W061Y(935385244518)
Yes
Yes
Certificate Of Analysis (CoA)
Yes
DREACH SVHC
98.55816451656
K32W061Z(935385244515)
Yes
Yes
Certificate Of Analysis (CoA)
Yes
DREACH SVHC
98.55816451656

Quality

Part/12NCSafe Assure Functional SafetyMoisture Sensitivity Level (MSL)Peak Package Body Temperature (PPT) (C°)
Lead SolderingLead Free SolderingLead SolderingLead Free Soldering
K32W061K
(935385244557)
No
3
3
240
260
K32W061Y
(935385244518)
No
3
3
240
260
K32W061Z
(935385244515)
No
3
3
240
260

Shipping

Part/12NCHarmonized Tariff (US)DisclaimerExport Control Classification Number (US)
K32W061K
(935385244557)
854231
5A992
K32W061Y
(935385244518)
854231
5A992
K32W061Z
(935385244515)
854231
5A992

Product Change Notice

Part/12NCIssue DateEffective DatePCNTitle
K32W061K
(935385244557)
2020-12-152020-12-16202011011INXP Will Add a Sealed Date to the Product Label
K32W061Y
(935385244518)
K32W061K
(935385244557)
2020-08-032020-08-04202007047IJN5188/89 - QN9030/9090 - K32W041/061 Datasheet New Revision
K32W061Y
(935385244518)
K32W061Z
(935385244515)

More about K32W061_41

The K32W061/41 portfolio is designed to power the next generation of ultra-low-current multiprotocol wireless IoT devices with support for IEEE 802.15.4 mesh network protocols Zigbee® and Thread as well as Bluetooth® Low Energy 5.0. This portfolio also supports Matter, the unified IP-based application layer to work across ecosystems being developed by the Connectivity Standards Alliance, targeted for release by end of 2021.

These wireless MCUs include multiple low-power modes and ultra-low radio Tx and Rx power consumption which enables IoT products powered by K32W061/41 to have extended battery life. With high Rx sensitivity and configurable Tx output power, the K32W061/41 MCUs offer reliable and robust connectivity performance.

The K32W061/41 portfolio is powered by an Arm® Cortex®-M4 MCU and with 640 KB on-board flash and 152 KB SRAM, has enough room and flexibility for complex applications and over-the-air (OTA) upgrade capability without external memory. These devices also include a rich set of MCU digital and analog peripherals and multiple serial communication interfaces for embedded connected applications and a quad serial flash memory controller, SPIFI, that can be used to extend non-volatile memory.