Annex no. 5 Functional Description / User Manual Date: 2012-06-11 m. dudde hochfrequenz-technik Vers. no. 1.
Project Documentation | UMRR-0A Radar Sensor Documentation Project Number: ... SMS Project Number: Project Title: General Purpose Radar Sensor Keyword(s): UMRR-0A radar sensor, type 32 antenna Date: October 4, 2012 Document: UMRR-0Axxxx Type32 General Purpose.docx Version: 1 CONFIDENTIAL AND PROPRIETARY The Information contained in this document shall remain the sole exclusive property of s.m.
1 Contents 1 2 3 4 Contents .................................................................................................................... 2 Abbreviations ............................................................................................................. 3 Introduction ............................................................................................................... 4 General description ...........................................................................................
2 Abbreviations ADC Analog-to-digital converter CAN Controller area network DAC Digital-to-analog converter DSP Digital signal processing; digital signal processor EEPROM Electrically erasable programmable read-only memory FMCW Frequency modulated continuous wave MMIC Monolithic microwave integrated circuit RAM Random access memory RS485 Physical communication layer standard EIA RS-485 SPI Serial peripheral interface UMRR Universal medium-range radar CONFIDENTIAL AND PROPRIETARY The Info
3 Introduction This document is a short documentation of the general purpose universal medium range radar (UMRR) UMRR-0Axxxx radar sensor with type 32 antenna (20xxxx) in the housing version 0706xx. CONFIDENTIAL AND PROPRIETARY The Information contained in this document shall remain the sole exclusive property of s.m.s smart microwave sensors GmbH and shall not be disclosed by the recipient to third parties without prior consent of s.m.s smart microwave sensors GmbH in writing.
4 General description 4.1 Sensor description The main task of the UMRR is the detection of any reflectors in the field of view, to measure the distance, the relative speed and the angle to the shortest reflector (and to other reflectors), to detect motion and to track (filter) the results over time.
5 Hardware 5.1 UMRR sensor An example picture of a UMRR (universal medium-range radar) sensor (housing type 0706xx) is shown in the figures below. Figure 2: UMRR sensor, housing type 0706xx, front. CONFIDENTIAL AND PROPRIETARY The Information contained in this document shall remain the sole exclusive property of s.m.s smart microwave sensors GmbH and shall not be disclosed by the recipient to third parties without prior consent of s.m.s smart microwave sensors GmbH in writing.
Figure 3: UMRR sensor housing 0706xx rear CONFIDENTIAL AND PROPRIETARY The Information contained in this document shall remain the sole exclusive property of s.m.s smart microwave sensors GmbH and shall not be disclosed by the recipient to third parties without prior consent of s.m.s smart microwave sensors GmbH in writing. UMRR-0Axxxx Type32 General Purpose.
5.2 Sensor Dimensions All values given in mm. Figure 4: Front and side views CONFIDENTIAL AND PROPRIETARY The Information contained in this document shall remain the sole exclusive property of s.m.s smart microwave sensors GmbH and shall not be disclosed by the recipient to third parties without prior consent of s.m.s smart microwave sensors GmbH in writing. UMRR-0Axxxx Type32 General Purpose.
Figure 5: Sensor Rear Side. CONFIDENTIAL AND PROPRIETARY The Information contained in this document shall remain the sole exclusive property of s.m.s smart microwave sensors GmbH and shall not be disclosed by the recipient to third parties without prior consent of s.m.s smart microwave sensors GmbH in writing. UMRR-0Axxxx Type32 General Purpose.
6 Cables and connectors 6.1 Sensor connector The used sensor connector is an 8-pin male circular connector (water proof IP67, series 712, manufacturer Binder GmbH, Germany). A female counterpart has to be used to connect to the sensor. The pin numbering of the female connector is shown in Figure 6 the pin out of the connector is shown in Table 2.
7 Data interfaces 7.1 CAN data interface This specification gives a detailed description of the CAN data communication used in the UMRR based systems on the sensor CAN. The UMRR is compliant with CAN 2.0B standard. CAN is a very robust full duplex bidirectional interface. 7.
Figure 7: CAN bit timing for UMRR sensor (eCAN module on DSP TMS320F28335) Figure 8: CAN bit timing as defined by the CAN protocol 7.3 RS485 data interface The RS485 interface from the UMRR sensor has a predefined speed of 230400 baud/s. Typical other data rates are between 921.6kBit/s and 56.7kBit/s. The RS485 message payload is identical to the CAN format. The data messages will be sent in several packets of one byte.
Table 3: RS485 message structure Byte\Bit 0 1 2 3 x x x x x x x x 0 1 2 3 4 7 6 5 4 3 Start sequence (4 x UINT8) 2 1 0 0xCA 0xCB 0xCC 0xCD Data payload (n x UINT8) XOR Checksum (UINT8) End sequence (4 x UINT8) 0xEA 0xEB 0xEC 0xED Every data message consists of its own message ID, the number of used data bytes and the data bytes itself. The checksum is calculated on all data except the start sequence and the end sequence. The Checksum is a simple XOR Assignment of all n data bytes.
Table 4: Structure of a RS485 data payload block Byte\Bit 0 1 2 3 4 5 6 7 8 9 10 7 6 5 4 3 2 CAN message ID (UINT16) 1 0 High Low CAN message length (UINT8) CAN data payload (length x UINT8) The sensor receives only one message per cycle. It is important to wait for the end sequence to send an additional command. CONFIDENTIAL AND PROPRIETARY The Information contained in this document shall remain the sole exclusive property of s.m.
7.4 Transceiver schematics In Figure 9 an extract of the DSP board schematic of the UMRR is given. As can be seen in this figure, the CAN pins of the DSP TMS320F28335 are connected to a CAN transceiver which is connected to the pins CAN_L and CAN_H. Similarly, the RS485 pins of the DSP are connected to a RS485 transceiver, which is connected to the pins RS_485_L and RS_485_H.
8 Designated use The UMRR general purpose medium range radar is suitable for any application where the distance to and relative radial speed of large objects has to be measured. Typical applications are: Automotive: measure shortest distance to obstacle. Robotics: measure shortest distance to obstacle. Security: detect motions and measure distance to moving object. Traffic management: detect moving objects, count those, measure speed and measure distance to moving object. Cranes: measure distance to ground.
9 Declaration of Conformity for USA This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Figure 10: FCC Label CONFIDENTIAL AND PROPRIETARY The Information contained in this document shall remain the sole exclusive property of s.m.s smart microwave sensors GmbH and shall not be disclosed by the recipient to third parties without prior consent of s.m.s smart microwave sensors GmbH in writing. UMRR-0Axxxx Type32 General Purpose.
10 Declaration of Conformity for CANADA Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. Usually this is followed by the following RSS caution: Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment.