V60G-HOME-I Module User Manual Revision 1.0.
V60G-HOME-I User Guide Vayyar Imaging Ltd. Web: https://vayyar.com Notice Copyright 2020 Vayyar Imaging Ltd. All rights reserved. This document is the property of Vayyar and all materials and information contained herein are the confidential and proprietary information of Vayyar and are protected by international copyright laws. The copyrights are owned by Vayyar or the original creator of the material.
V60G-HOME-I User Guide Table of Contents CHAPTER 1 1.1 1.2 INTRODUCTION ..................................................................................................... 6 Release Information Note ....................................................................................................... 6 Glossary ................................................................................................................................... 7 CHAPTER 2 SYSTEM OVERVIEW ..............................
V60G-HOME-I User Guide List of Figures Figure 1: V60G-HOME-I “EVK” System Architecture............................................................................... 8 Figure 2: V60G-HOME-I “Embedded” System Architecture ................................................................... 9 Figure 3: High-Level Block Diagram – USB-based system ..................................................................... 10 Figure 4: vStraw_CTPB4 Connectivity ........................................................
V60G-HOME-I User Guide List of Tables Table 1: Glossary ..................................................................................................................................... 7 Table 2: Sensor Unit Specification ........................................................................................................ 11 Table 3: Sensor Unit Electrical Specification .........................................................................................
V60G-HOME-I User Guide Chapter 1 Introduction This guide provides information on the installation and operation of the Vayyar V60G-HOME-I modules. V60G-HOME-I is a family of multi-antenna millimeter-wave modules operating at 60GHz bands, based on the company’s VYYR7201 RF SoC, generating a 3D image of the sensor’s vicinity by transmitting and receiving mm-wave signals from multiple antennas (MIMO), used as a fixed field disturbance sensor or a short-range device for interactive motion sensing.
V60G-HOME-I 1.2 User Guide Glossary Table 1: Glossary Term Definition AC Alternating Current API Application Programming Interface DC Direct Current DLL Dynamic Link Library EVK Evaluation Kit GUI Graphical User Interface IP Internet Protocol. An IP address is a numerical identifier assigned to a computing device or node in a TCP/IP network. The address is used to locate and identify the node in communications with other nodes on the network.
V60G-HOME-I User Guide Chapter 2 System Overview 2.1 System Architecture The V60G-HOME-I system may be operating with a host-PC and dedicated control and imaging SW and GUI (for example an “EVK” architecture), or by running an imaging engine on a dedicated DSP embedded into the proprietary VYYR7201_CTPB4 chips and using a dedicated API to extract the processing outputs (“embedded architecture”), or any combination of the two.
V60G-HOME-I User Guide Web GUI. User-interface client software that communicates with the EVK Engine via a TCP/IP connection. API Client. Optional, customer-developed software that communicates with the EVK Engine via a TCP/IP connection. A typical “Embedded” architecture is depicted in the following figure: Host Controller / CPU SPI , USB [Application] Vayyar sensor module LAN \ WLAN \ Cellular Central processing unit \ server \ cloud Figure 2: V60G-HOME-I “Embedded” System Architecture Ex
V60G-HOME-I 2.2 User Guide Hardware The figure below presents a high-level block diagram of the PCB that houses the USB-based sensor unit: Figure 3: High-Level Block Diagram – USB-based system An SPI-based module is similar, excluding the USB-related components. The following components are embedded in the sensor unit PCB: Vayyar VYYR7201-B4 system-on-chip (SoC). 46 embedded Tx/Rx linear polarized PCB embedded, wide-band antennas. A Crystal used as a clocking source for the Cypress MCU.
V60G-HOME-I 2.2.1 User Guide Sensor Unit Specification Table 2: Sensor Unit Specification Parameter Specification Transceivers 24 Tx, 22 Rx Frequency Band Within 59 - 64 GHz Or 61-61.5GHz Field of View (FoV) Refer to section 2.2.5 Antenna and RF Characteristics Range Resolution Notes Configured by software. C Depends on the configured BW 2𝐵𝑊 For example, for BW of 2GHz the range-resolution is 7.
V60G-HOME-I 2.2.2 User Guide Digital Interface The V60G-HOME-I models use either USB 2.0 or SPI as digital-interface, connecting the host module to the sensor module. The USB interface is implemented on the module using an MCU and a micro-USB connector. The SPI interface is connected directly to the VYYR-7201-B4 chip, through a board-mounted multi-pin connector. Micro-Controller Unit (MCU) Cypress’s EZ-USB FX3™ MCU integrates the USB 2.
V60G-HOME-I User Guide Figure 5: vBLU_OK _CTPB4 connector The exact pinout is provided with the module itself and a reference design. 2.2.3 RF Interface - Antennas The array of 46 antennas serves to connect the sensor unit with the environment. The antennas are embedded in the PCB, as depicted in the figure below. Figure 6: Antenna Positions and Numbering For each transmitting (TX) antenna, there are multiple receiving (RX) antennas for collecting and recording the received RF signals.
V60G-HOME-I User Guide Table 3: Sensor Unit Electrical Specification Parameter Value Vcc supply voltage 5 VDC Max current consumption ~1.6 A Average current consumption ~0.75 A 2.2.5 Antenna and RF Characteristics The following are antenna and RF characteristics, based on the simulation of a single antenna over an infinite ground plane: Table 4: Antenna and RF Characteristics Parameter Value Comment Gain ~ 5 dBi @62 GHz At 0˚ Elevation, 0˚ Azimuth Antenna -5dB beamwidth 160 deg.
V60G-HOME-I 2.3 User Guide Software The V60G-HOME-I system software performs signal processing and generation of the arena image, either on a host-device, or on an embedded DSP processor. The software generates a 3D image and a point-cloud corresponding to the detected objects in the arena, and may extract further details through more advanced algorithms (for example – falldetection, breathing waveform monitoring etc).
V60G-HOME-I User Guide Chapter 3 Regulatory section 3.1 3.1.1 Compliance FCC The device is certified under FCC part 15 section 15.255, as - FCC-ID : 2AHIS-V60G-HOME-I. This V60G-HOME-I device has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation.
V60G-HOME-I 3.1.2 User Guide IC Industry Canada ICES-003 Compliance: CAN ICES-3 (B)/NMB-3(B) IC Caution: RSS-Gen Issue 4 December 2014”&”CNR-Gen 4e Décembre 2014: - English: This device complies with Industry Canada licence-exempt RSS standard(s). 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.
V60G-HOME-I 3.2 User Guide Instructions for the Integrator The OEM integrator is responsible for ensuring that the end-user has no manual instructions to remove or install module. 3.2.1 OEM Integrators Notices This device is intended only for OEM integrators under the following conditions: The transmitter module may not be co-located with any other transmitter or antenna. As long as this condition above is met, further transmitter testing will not be required.
V60G-HOME-I 3.2.4 User Guide RF Exposure Guidance In order to comply with FCC / ISED RF Exposure requirements, this device must be installed to provide at least 20 cm separation from the human body at all times. “Afin de se conformer aux exigences d'exposition RF FCC / ISED, cet appareil doit être installé pour fournir au moins 20 cm de séparation du corps humain en tout temps.