Product Info
DWM1001C Datasheet
© Decawave Ltd 2017 Subject to change without notice Version 1.40C Page 5
1 O
VERVIEW
The block diagram on page 1 of this data sheet shows the major sections of the DWM1001C. An overview of these
blocks is given below.
1.1 UWB Transceiver DW1000
The module has a DW1000 UWB transceiver mounted on the PCB. The DW1000 uses a 38.4 MHz reference
crystal. The crystal has been trimmed in production to reduce the initial frequency error to approximately 3 ppm,
using the DW1000 IC’s internal on-chip crystal trimming circuit.
Always-On (AON) memory can be used to retain DW1000 configuration data during the lowest power operational
states when the on-chip voltage regulators are disabled. This data is uploaded and downloaded automatically. Use
of DW1000 AON memory is configurable.
The on-chip voltage and temperature monitors allow the host to read the voltage on the VDDAON pin and the
internal die temperature information from the DW1000.
See the DW1000 Datasheet [2] for more detailed information on device functionality, electrical specifications and
typical performance.
1.2 Bluetooth®
Microprocessor Nordic nRF52832
The nRF52832 is an ultra-low power 2.4 GHz wireless system on chip (SoC) integrating the nRF52 Series 2.4
GHz transceiver and an ARM Cortex-M4 CPU with 512kB flash memory and 64kB RAM.
See the nRF52832 Datasheet[1] for more detailed information on device functionality, electrical specifications and
typical performance.
1.3 Power Supply and Power management
The power management circuit consists of a switch mode regulator. It is a buck convertor or step down convertor.
The input voltage to the DWM1001C can be in the range 2.8V to 3.6V. Outputs from the convertor provides 1.8V
which is required by the DW1000[2]
1.4 Three Axis Motion Detector STMicroelectronics LIS2DH12TR
The LIS2DH12 is an ultra-low-power high performance three-axis linear accelerometer with digital I2C/SPI serial
interface standard output. The LIS2DH12 has user-selectable full scales of ±2g/±4g/±8g/±16g and is capable of
measuring accelerations with output data rates from 1 Hz to 5.3 kHz. The self-test capability allows the user to
check the functionality of the sensor in the final application. The device may be configured to generate interrupt
signals by detecting two independent inertial wake-up/free-fall events as well as by the position of the device itself.
The LIS2DH12 is guaranteed to operate over an extended temperature range from -40 °C to +85 °C.
See the LIS2DH12TR Datasheet[4] for more detailed information on device functionality, electrical specifications
and typical performance.
1.5 Software on board
The DWM1001 module comes pre-loaded with embedded firmware which provides two-way ranging (TWR) and
real time location system (RTLS) functionality. See the details in the DWM1001 Firmware User Guide [6]. The
module can be configured and controlled via its API, which can be accessed through a number of different
interfaces, allowing flexibility to the product designer. The details of the API are described in the DWM1001
Firmware API Guide [5]. Decawave also provides the module firmware in the form of binary libraries and some
source code. A build environment is provided, so that the user can customise the operation and if required add
their own functions[6].