Features
Battery Cell Controller, Advanced, 6 Channels, TPL, LQFP48.
Package
HLQFP48 LQFP64, plastic, low profile quad flat package; 64 terminals; 0.5 mm pitch; 10 mm x 10 mm x 1.4 mm body.
購入オプション
K32W061K
アクティブ
12NC: 935385244557
詳細
K32W061Y
アクティブ
12NC: 935385244518
詳細
K32W061Z
アクティブ
12NC: 935385244515
詳細
操作機能
| パラメータ | 値 |
|---|---|
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 |
| パラメータ | 値 |
|---|---|
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 |
環境
| Part/12NC | 鉛フリー | EU RoHS | ハロゲンフリー | RHFインジケーター | REACH SVHC | Weight (mg) |
|---|---|---|---|---|---|---|
K32W061K(935385244557) | Yes | Yes Certificate Of Analysis (CoA) | Yes |  | REACH SVHC | 98.55816451656 |
K32W061Y(935385244518) | Yes | Yes Certificate Of Analysis (CoA) | Yes | | REACH SVHC | 98.55816451656 |
K32W061Z(935385244515) | Yes | Yes Certificate Of Analysis (CoA) | Yes | | REACH SVHC | 98.55816451656 |
品質
配送
製品変更のお知らせ
| Part/12NC | 発行日 | 有効期限 | PCN | タイトル |
|---|---|---|---|---|
K32W061K (935385244557) | 2020-12-15 | 2020-12-16 | 202011011I | NXP Will Add a Sealed Date to the Product Label |
K32W061Y (935385244518) | ||||
K32W061K (935385244557) | 2020-08-03 | 2020-08-04 | 202007047I | JN5188/89 - QN9030/9090 - K32W041/061 Datasheet New Revision |
K32W061Y (935385244518) | ||||
K32W061Z (935385244515) |
詳細 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.