Instruction Z-Wave Module Selection Guideline Document No.: INS10027 Version: 6 Description: This document introduces the ZW0201, and ZW0301 Single Chip based Z-Wave Module families, and suggests which module to choose for a given application. Written By: MVO;SDH Date: 2007-03-16 Reviewed By: RBO;MVO Restrictions: None Approved by: Date 2007-03-16 CET 11:20:12 Initials Name NTJ Niels Thybo Johansen Justification This document is the property of Zensys A/S. The data contained herein, in whole or in part, may not be duplicated, used or disclosed outside the recipient for any purpose other than to conduct technical evaluation. This restriction does not limit the recipient's right to use information contained in the data if it is obtained from another source without restriction. INS10027-6 Z-Wave Module Selection Guideline 2007-03-16 REVISION RECORD Doc. Rev Date By 01.00 02.00 03.00 03.01 04.00 4 5 6 TBA TJO TJO TJO TJO MVO SDH MVO SDH Zensys A/S 20020822 20030409 20031112 20040504 20050404 20060106 20061015 20070226 Pages affected All All All All All All All All Brief description of changes First Release New SW API's added and ZM1206 Z-Wave Module Added New layout and a wide range of information has been added Minor wording changes ZW0201 Single Chip included st New 1 page/header/footer contents. New Doc No ZM2120 added to selection guide Removed "Confidential" from footer Updated to include ZW0301 based modules. ZW0102 based modules removed. Contents Page ii of iii INS10027-6 Z-Wave Module Selection Guideline 2007-03-16 Table of Contents 1 ABBREVIATIONS.................................................................................................................................1 2 INTRODUCTION ...................................................................................................................................1 2.1 Purpose .................................................................................................................................................1 2.2 Audience and prerequisites...................................................................................................................2 3 Z-WAVE MODULES .............................................................................................................................3 3.1 Z-Wave Module Family .........................................................................................................................3 3.2 Module naming ......................................................................................................................................4 3.3 Available Z-Wave Module Configurations .............................................................................................5 3.3.1 ZW0201 / ZW0301 Based Z-Wave Modules..............................................................................5 3.3.1.1 3.3.1.2 3.3.1.3 3.3.1.4 3.3.1.5 3.3.1.6 ZM2102 Z-Wave Module.......................................................................................................................5 ZM3102N Z-Wave Module ....................................................................................................................5 ZM2106C-E and ZM3106C-E Z-Wave Modules....................................................................................6 ZM2120C-E and ZM3120C-E Z-Wave Modules....................................................................................6 ZM2120C-EW and ZM3120C-EW Z-Wave module...............................................................................6 ZW0201 / ZW0301 Based Z-Wave Module Application Connector Specification..................................6 3.4 ZM2106C/ZM3106C Physical Specification..........................................................................................9 3.5 ZM2120C/ZM3120C Physical Specification........................................................................................10 3.6 ZM2102/ZM3102N Physical Specification ..........................................................................................10 4 Z-WAVE API'S AND Z-WAVE MODULE SELECTION .....................................................................12 APPENDIX A 5 NAMING OF 100 SERIES MODULES ............................................................................13 REFERENCES ....................................................................................................................................14 Zensys A/S Contents Page iii of iii INS10027-6 Z-Wave Module Selection Guideline 2007-03-16 1 ABBREVIATIONS Abbreviation ADC API EU FSK GPIO HW I/O MCU OEM PCB POR RF RTC RX SPI SRAM SW TX UART US ZW0102 ZM1206 ZM1220 ZW0201 ZM2102 ZM2106C ZM2120C ZW0301 ZM3102N ZM3106C ZM3120C HK ANZ Explanation Analog-to-Digital Converter Application Programming Interface Europa Frequency Shift Keying General Purpose Input/Output Hardware Input/Output Micro Controller Unit Original Equipment Manufacturer Printed Circuit Board Power On Reset Radio Frequency Real-Time-Clock Receive Serial Peripheral Interface Static Random Access Memory Software Transmit Universal Asynchronous Receive Transmit United States Z-Wave Single Chip, first generation 6 cm2 Z-Wave Module based on the ZW0102 Single Chip 20 cm2 Z-Wave Module based on the ZW0102 Single Chip Z-Wave Single Chip, second generation 2 cm2 Z-Wave Module based on the ZW0201 Singe Chip 6 cm2 Z-Wave Module based on the ZM2102 Module 20 cm2 Z-Wave Module based on the ZW0201 Single Chip Z-Wave Single Chip, third generation 2 cm2 Z-Wave Module based on the ZW0301 Singe Chip 6 cm2 Z-Wave Module based on the ZM3102N Module 20 cm2 Z-Wave Module based on the ZM3102N Module Hong Kong Australia / New Zealand 2 INTRODUCTION 2.1 Purpose The purpose of this document is to guide the developer in deciding which of the currently available Z-Wave Modules in the ZW0201 and ZW0301 Z-Wave Module Family to choose for a given application. Each of the Z-Wave Modules exists in a 908.42MHz (US), 868.42 MHz (EU), 919.82 MHz (HK), 921.42 MHz (ANZ) version - the choice of frequency must be based on which region the final product will be used in and is therefore not within the scope of this document. Zensys A/S Abbreviations Page 1 of 14 INS10027-6 2.2 Z-Wave Module Selection Guideline 2007-03-16 Audience and prerequisites The audience is OEM developers responsible for deciding how to build and design Z-Wave enabled products. Prerequisites are knowledge about Z-Wave API's [1] as well as the basic functionalities of how to configure and maintain the Z-Wave Network. Please refer to: [2]- Z-Wave Node Type Overview and Network Installation Guide. Zensys A/S Introduction Page 2 of 14 INS10027-6 Z-Wave Module Selection Guideline 2007-03-16 3 Z-WAVE MODULES The ZW0201/ZW0301 Single Chip based Z-Wave Modules have been developed by Zensys A/S and have been extensively tested with regards to both digital signal integrity and RF performances. The modules have been RF/EMC tested and have passed FCC part 15 and R&TTE Directives. Refer to the datasheet for ZW0201 [3], ZW0301 [4] for a detailed description of chip functionalities. All necessary documentation for pre-production of the Z-Wave Modules, including schematics, BOM's, PCB documentation, production test documents, etc. is available as a Blueprint package. This enables OEM customers to reduce time to market for their Z-Wave enabled products. For further information on Blueprint content, please contact Zensys A/S. 3.1 Z-Wave Module Family Three Z-Wave Module form factors currently exist. The Integrated Z-Wave Module called ZMxx20, which is a 20cm2 single side mounted PCB having an integrated PCB antenna (other external antennas can be used) and some mounting options. The Small-Form-Factor Z-Wave Module called ZMxx06, which is a 6cm2 single side mounted PCB used for small size applications. The ZMxx06 do not have an integrated antenna and therefore requires an external antenna, enabling flexible antenna design and mounting. The smallest Z-Wave Module called ZM2102/ZM3102N is a small pre-manufactured and pre-tested module in size 12.5mm. x 13.6mm. The ZM2102/ZM3102N can be mounted with a standard pick-and-place machine on the production line and undergo a re-flow process or be hand soldered to the Application PCB. The ZM2102/ZM3102N does not have an integrated antenna and therefore requires an external antenna, enabling flexible antenna design and mounting. The following table describes features and mounting options of the available Z-Wave Modules. Zensys A/S Description ZM2102 Z-Wave Module ZM2106C Z-Wave Module ZM2120C Z-Wave Module ZM3102N Z-Wave Module ZM3106C Z-Wave Module ZM3120C Z-Wave Module Z-Wave Single Chip Number of GPIO's (dual functionality) (1) Interrupt Input Serial UART (1) Interface (1) SPI Interface (1) Zerox Cross Input Triac Control (1) Output (1) PWM Output ADC Input (multiplexed) Wake-Up-Timer Sleep period [sec] Support for ext PA Max rad. power. Mounting Options RTC Crystal EEPROM Push Button External on-board Reset Device On-board Voltage Regulator Zerox and ADC signal 5V-to-3.3V level conversion ZW0201 10(10) ZW0201 10 (10) ZW0201 10 (10) ZW0301 10(10) ZW0301 10 (10) ZW0301 10 (10) 2 1 2 1 2 1 2 1 2 1 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 4 1 4 1 4 1 4 1 4 1 4 1 1-256 No 1 1-256 No 1 1-256 No 1 7.8m-256 Yes +6dBm 1 7.8m-256 Yes +6dBm 1 7.8m-256 Yes +6dBm No No No No No Yes No No No Yes Yes No No No No No No Yes No No No Yes Yes No No No Yes No No Yes No No No No No No Z-Wave Modules Page 3 of 14 INS10027-6 Z-Wave Module Selection Guideline Description Antenna Options PCB Antenna SMA Connector Wire Antenna mounting Hole Antenna connector (to Application Module) Mechanical Application Connector 2007-03-16 ZM2102 Z-Wave Module ZM2106C Z-Wave Module ZM2120C Z-Wave Module ZM3102N Z-Wave Module ZM3106C Z-Wave Module ZM3120C Z-Wave Module No No No No No Yes Yes Yes Yes No No No No No Yes Yes Yes Yes Cast. Notch 1x3 2mm pitch No Cast. Notch 1x3 2mm pitch No Cast. Notches 18 Pin row 2x8 Pin row 2x10 Cast. Notches 18 Pin row 2x8 Pin row 2x10 Connector Pitch PCB Size 2mm 2mm 2 2 2 ~ 20cm ~ 2cm ~ 6cm (12.5mm (21x30mm) (40.5 x .x 50mm.) 13.6mm) Support Post Hole No No Yes SMD Component Single Single Single Mount Sided Sided Sided (1) Can also be used as General Purpose Input/Output 2mm 2 2 ~ 6cm ~ 2cm (12.5mm. x (21x30mm) 13.6mm.) No Single Sided No Single Sided 2mm 2 ~ 20cm (40.5 x 50mm.) Yes Single Sided Table 1 Z-Wave Module Overview 3.2 Module naming Explanation of the ZW0201 based Z-Wave Module naming. US Z M 21 20 C - EW Whip antenna Frequency: EU = 868.42MHz US = 908.42MHz EEPROM mounted Converter Module Z-Wave Module ZW0201 Single Chip Module Size: 20 = 20cm2 PCB 2 06 = 6cm PCB 02 = 2cm2 PCB Figure 1 ZW0201 Z-Wave Module Naming Zensys A/S Z-Wave Modules Page 4 of 14 INS10027-6 Z-Wave Module Selection Guideline 2007-03-16 Explanation of the ZW0301 based Z-Wave Module naming. US Z M 31 20 NC - EW Frequency: EU = 868.42MHz US = 908.42MHz HK = 919.82MHz ANZ = 921.42MHz Whip antenna EEPROM mounted Converter Module Z-Wave Notches (Castellation notches) 2 Only applicable for size 2cm Module ZW0301 Single Chip Module Size: 2 20 = 20cm PCB 2 06 = 6cm PCB 2 02 = 2cm PCB Figure 2 ZW0301 Z-Wave Module Naming Refer to Appendix A for a description of the 100 series Z-Wave modules naming. 3.3 Available Z-Wave Module Configurations The above module configurations are based on Blueprints available from Zensys. Other configurations are of course possible by changing the BOM's to represent your needs Note: additional mounting options such as Push Button and External On-board Reset Device, On-board Voltage Regulator" and Zerox and ADC signal 5V-to-3.3V level conversion" (see Table 1) are not specified as part of the module name but should be specified separately. 3.3.1 ZW0201 / ZW0301 Based Z-Wave Modules The following Z-Wave Modules are based on the ZW0201 or ZW0301 Single Chips. 3.3.1.1 ZM2102 Z-Wave Module The ZM2102 is the 2cm2 Z-Wave Module based on ZW0201 having the necessary components mounted in order to operate as a Z-Wave Slave node. The ZM2102 is designed to be supplied as a "component", optionally with a top shield. The module, both with and without the top shield, can be mounted with a standard pick-and-place SMT machine. The electrical interface pads are designed as castellation notches. 3.3.1.2 ZM3102N Z-Wave Module The ZM3102N is the 2cm2 Z-Wave Module based on ZW0301 having the necessary components mounted in order to operate as a Z-Wave Slave node. The ZM3102N is designed to be supplied as a "component", optionally with a top shield. The module, both with and without the top shield, can be mounted with a standard pick-and-place SMT machine. The electrical interface pads are designed as castellation notches. Zensys A/S Z-Wave Modules Page 5 of 14 INS10027-6 3.3.1.3 Z-Wave Module Selection Guideline 2007-03-16 ZM2106C-E and ZM3106C-E Z-Wave Modules The ZM2106C / ZM3106C are the "basic" 6cm2 Z-Wave Module with the ZM2102 / ZM3102N Z-Wave Module mounted on it. The ZM2106C / ZM3106C are used for easy migration from the ZM1206 Z-Wave Module using the ZW0102 Z-Wave Single Chip to the ZW0201 or ZW0301 Z-Wave Single Chip platform. The ZM2106C-E / ZM3106C-E modules have also an external onboard EEPROM mounted. This enables the modules to run Z-Wave Controller and Enhanced Slave applications. 3.3.1.4 ZM2120C-E and ZM3120C-E Z-Wave Modules The ZM2120C / ZM3120C are used to convert the smaller ZM2102 / ZM3102N Z-Wave Modules to a platform with a size of 20cm2. This allows easy migration from the ZM1220 Z-Wave Module family to the ZM2120C / ZM3120C Z-Wave Modules, which consists of the ZW0201 / ZW0301 Z-Wave Single Chips. The modules have mounted EEPROM for Z-Wave controller and enhanced slave applications. The ZM2120C / ZM3120C Z-Wave modules are RF matched and connected to the onboard PCB antenna. 3.3.1.5 ZM2120C-EW and ZM3120C-EW Z-Wave module The ZM2120C-W and ZM3120C-W are prepared for use with the whip antenna connected to the SMA connector. Otherwise, these modules are similar to ZM2120C-E / ZM3120C-E Z-Wave Modules with EEPROM 3.3.1.6 ZW0201 / ZW0301 Based Z-Wave Module Application Connector Specification The Application Connector interfacing the ZM2106C / ZM3106C Z-Wave Modules with the OEM Application is a 2mm pitch 2x8 pin row. The ZM2120C / ZM3120C use a 2mm pitch 2x10 pin row. ZM2102 / ZM3102N Z-Wave Module have 18 castellation notches interfacing the module with the Application PCB. Zensys A/S Z-Wave Modules Page 6 of 14 INS10027-6 Z-Wave Module Selection Guideline ZM2102 / ZM3102N ZM2106C / ZM3106C Notch no. 1 3 Signal name GND P1.7 / INT1 Notch No. 2 4 5 P1.5 / 1 SS_N P1.2 / MISO 6 8 P1.4 / SCK 7 9 P1.3 / MOSI 10 11 VCC 12 P1.1 / ADC3 / RXD GND 13 P0.1 / ADC1 / TRIAC P1.0 / ADC2 / TXD GND 14 7 15 17 2007-03-16 Notch Name RESET_N P1.6 / PWM / INT0 GND Pin Name Pin No. 1 3 GND TRIAC (P0.1/ADC1) 5 Pin No. 2 4 Pin Name +3.3V SCK (P1.4) ZEROX (P0.0/ADC0) TXD (P1.0/ADC2) 6 MOSI (P1.3) 8 9 RXD (P1.1/ADC3) 10 P1.5 (SS_N) INT1_N (P1.7) 11 12 14 ADC (ADC0 or ADC2) MISO (P1.2) 16 RESET_N 13 16 P0.0 / ADC0 / ZEROX GND PWM (P1.6/INT0) 1 VPP 15 GND 18 RF in/out 1. VPP is available for programming of future Z-Wave Modules. VPP is not connected when used together with ZM2102 / ZM3102N. ZM2120C / ZM3120C Pin No. 1 3 5 7 9 11 13 15 17 19 1. 2. 3. Pin Name VPP1 ZEROX (P0.0/ADC0) TRIAC (P0.1/ADC1) 2 ADC (ADC0 or ADC2) N.C. VCC GND RESET_N +3.3V N.C. Pin Name Pin No. 2 4 N.C. PWM (P1.6/INT0) 6 INT1_N (P1.7) 8 P1.5 10 12 14 16 18 20 MISO (P1.2) SCK (P1.4) MOSI (P1.3) TXD (P1.0/ADC2) RXD (P1.1/ADC3) 3 ADC2 (RXD/P1.1/ADC3) VPP is available for programming of future Z-Wave Modules. VPP is not connected when used together with ZM2102 / ZM3102N. ADC0 or ADC2 can be selected by resistor R9 or R11. By default none of the two resistors are mounted. Pin 20 is per default not connected to the RXD/ADC3 signal. Table 2 Z-Wave Module Application Connector Layout Zensys A/S Z-Wave Modules Page 7 of 14 INS10027-6 Z-Wave Module Selection Guideline Name 2007-03-16 ADC[3:0] I/O Power I Description Module 3.3V supply input. Analog-to-Digital Converter input. The ADC is 12/8 bit and can use VCC, an internal or an external voltage as reference. ADC3: input ADC2: input ADC1: input/lower reference ADC0: input/higher reference GND Power Ground signal INT[1:0] I/O Interrupt: The signal can be either level or edge trigged. When in power down mode, the ZM2102 Z-Wave Module's MCU can be woken up by asserting the interrupt signal. P[0.1-0.0], P[1.7-1.0] I/O In/Out: General purpose I/O signal. MISO1 I/O Master-In-Slave-Out SPI interface: output in slave mode operation and input in master mode operation. MOSI1 I/O Master Out Slave In SPI interface: input in slave mode operation and output in master mode operation. PWM I/O Pulse Width Modulator Output: Used for frequency variation applications. RESET_N I RXD I/O UART Receive Data: Supports 9.6kbaud, 37.4kbaud, 115.2kbaud. SCK1 I/O SPI Clock: Can be used as either master SPI clock output or slave SPI clock input. P1.5 / SS_N1 I/O Slave Select: Active low SPI slave select input. When in SPI slave mode the input acts as chip select input. TRIAC I/O TRIAC Control: A triac controller is implemented in the ZW0201 Single Chip that can controls a triac on the Application Module like light dimmer modules etc. TXD I/O UART Transmit Data: Supports 9.6kbaud, 37.4kbaud, 115.2kbaud. VPP Program supply ZEROX I/O +3.3V Reset: Active low reset. The ZW0201 Single Chip has an integrated Power-On-Reset and Brown-out detection circuitry. Reserved for programming of future modules. Not connected when used together with ZM2102 or ZM3102N. Zero Cross Detection: Zero cross detection signal used on dimmer modules detecting 120/240V zero crossing. Please note that the SPI interface (MISO, MOSI, SCK and SS_N) is not available for the Application SW in some Z-Wave protocol API's, see [1]. Table 3 Application Connector Signal Description Zensys A/S Z-Wave Modules Page 8 of 14 INS10027-6 3.4 Z-Wave Module Selection Guideline 2007-03-16 ZM2106C/ZM3106C Physical Specification Physical Dimension (H x W x D) Description 8 mm x 21 mm x 30 mm Table 4 Physical Specifications 20.5mm 17.5mm 9.2mm 0.5mm Pin 19 Pin 1 1.3mm 2.8mm 28.7mm 24.9mm 30.0mm 6.9mm 11.9mm 19.9mm 25.2mm Pin 2 6.5mm C 10.8mm D 21mm Figure 3 ZM2106C/ZM3106C Z-Wave Module PCB outline (TOP VIEW - not to scale) The Application Connector is a standard 2mm pitch 2x8 pin-row. When implementing the Z-Wave Module in a product, a 2mm pitch 1x3 pin-row (marked as C in figure 3) can be used for mechanical stability. Another 2mm pitch 1x3 pin row (marked as D in figure 3) can be used to connect the Z-Wave Module to a PCB antenna or a SMA connector on the Application Module. Alternatively a wire antenna can be mounted directly in the middle hole of pin row D Zensys A/S Z-Wave Modules Page 9 of 14 INS10027-6 3.5 Z-Wave Module Selection Guideline 2007-03-16 ZM2120C/ZM3120C Physical Specification Physical Dimension (H x W x D) Mounting holes Description 7 mm x 50 mm x 40.5 mm Two holes. Table 5 Physical Specifications 40.5mm 2.0mm Pin 20 J1 H1 30.00mm 50.0mm S1 H2 31.0mm 25.0mm 29.0mm 35.0mm Figure 3 ZM2120C/ZM3120C Z-Wave Module PCB outline The Application Connector is a standard 2mm pitch 2x10 pin-row. The holes H1 and H2 are un-plated holes that can be used for support attachment or other mechanical stability mechanisms. S1 is the optional on-board push button. Note that the component placement coordinates for the SMA connector are different between the ZM1220 and ZM2120C / ZM3120C modules. The SMA connector is shifted by 1.75mm on the ZW2120C / ZW3120C modules compared to ZM1220. Refer to the PCB documentation for precise coordinates. 3.6 ZM2102/ZM3102N Physical Specification Physical Specification Description Size 12.5mm. x 13.6mm. x 2.4mm (0.492" x 0.535" x 0.094") Weight TBD g (TBD oz) Castellation Notches 18 Table 6 Physical Specifications Zensys A/S Z-Wave Modules Page 10 of 14 INS10027-6 Z-Wave Module Selection Guideline 2007-03-16 5.05 mm. 6.55 mm. 8.05 mm. 9.55 mm. 11.80 mm. 5 4 3 2 1 15.40 mm. 3.55mm. 0 mm. 6 14.30 mm. 10.15 mm. 7 8.65 mm. 8 7.15 mm. 9 5.65 mm. 10 4.15 mm. 11 14 15 16 17 6.90 mm. 6.55 mm. 8.05 mm. 11.80 mm. 1.40mm. 1.10mm. 1.45mm. 1.40mm. 8.65 mm. 15.40 mm. 13 5.05 mm. 0 mm. 12 3.55mm. 0 mm. 18 O0.55mm. O0.70mm. Figure 4 ZM2102/ZM3102N Z-Wave Module PCB outline Zensys A/S Z-Wave Modules Page 11 of 14 INS10027-6 Z-Wave Module Selection Guideline 2007-03-16 4 Z-WAVE API'S AND Z-WAVE MODULE SELECTION The table below lists which Z-Wave Modules that can be used when using the available Z-Wave SW API's for the application in question. Please refer to [1] for information on how to choose which of the six API's listed in Table 7 to use. Please note that while applications using the Slave API will be able to run on all the available module types the Application SW will not be able to access the additional HW mounted on the modules if you do not use one of the API's that support the additional HW (e.g. Enhanced Slave API). Z-Wave Module Selection Guide X X X X X X X X X X X X X X X X Push Button X X X X X X HW Options External EEPROM Routing Slave API X X X Z-Wave Module Name ZM2102 ZM2106C-E ZM2120C-E ZM2120C-EW ZM3102N ZM3106C-E ZM3120C-E ZM3120C-EW Enhanced Slave API Slave API X X X Static Controller API X X X X X X X X X X X Portable Controller API X X X X X X X X X X X Installer API API Selection Table 7 Z-Wave Module Selection Guide Z-Wave Module Zensys BOM P/N1 Z-Wave Module EU US ANZ Name 868.42MHz 908.42MHz 921.42MHz ZM2102 370100621 370100620 NA ZM2106C-E 370100681 370100660 NA ZM2120C-E 370100711 370100632 NA ZM2120C-EW 370100710 370100630 NA ZM3102N 370100770 370100760 370100830 ZM3106C-E 370100860 370100850 370100870 ZM3120C-E 370100811 370100801 370100840 ZM3120C-EW 370100810 370100800 370100820 1. Please contact Zensys A/S for information about the latest revision numbers of these BOM's. HK 919.82MHz NA NA NA NA 370100830 370100870 370100840 370100820 Table 8 Z-Wave Module BOM P/N Zensys A/S Z-Wave API'S and Z-Wave Module Selection Page 12 of 14 INS10027-6 Z-Wave Module Selection Guideline 2007-03-16 APPENDIX A NAMING OF 100 SERIES MODULES Explanation of the ZW0102 based Z-Wave Module naming. These modules are not recommended to be used in new products. US Z M 12 20 - R E B Battery Application Frequency: US = 908.42MHz EU = 868.42MHz (POR Disabled) EEPROM mounted Z-Wave Real Time Crystal mounted Module Module Size: 2 20 = 20cm PCB 2 06 = 6cm PCB ZW0102 Single Chip Figure 5 ZW0102 Z-Wave Module Naming Zensys A/S Z-Wave API'S and Z-Wave Module Selection Page 13 of 14 INS10027-6 Z-Wave Module Selection Guideline 2007-03-16 5 REFERENCES [1] [2] [3] [4] Zensys, INS10247, Instruction, Z-Wave ZW0102/ZW0201/ZW0301 Appl. Prg. Guide v5.00 (Beta1) Zensys, INS10244, Instruction, Z-Wave Node Type Overview and Network Installation Guide Zensys, DSH10560, Datasheet, ZW0201 With Developers Kit v5.0x Zensys, DSH10717, Datasheet, ZW0301 With Developers Kit v5.0x Zensys A/S References Page 14 of 14