Synapse Electronique ZW01UL Wireless communcation module User Manual

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SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
Z‐Wave Radio Module
1.1 TECHNICAL SUMMARY

FCC certification: Limited modular

FLiRS1 mode: low consumption operation

UART communication: 115,200 bps

Z‐Wave software protocol stack included

Integrated PCB antenna

Output power: ‐ 4 dBm

Compact PCB footprint: 41 x 32 mm

Based on an 8051 CPU core

Power‐On‐Reset/Brown‐Out detection

TX mode: typical current 32 mA at ‐ 4 dBm

RX mode: typical current 32 mA

Normal mode: typical current 15 mA

Sleep mode: typical current 1 µA
1.3 DESCRIPTION
The SYN‐RF‐ZW01Ux series of modules
integrates a PCB antenna and a
microcontroller with RF transmitter‐
receiver (ZM5202). An optional external
non‐volatile memory can be added
according to the Z‐Wave software stack variant included in the
module.
The limited modular certification allows the integration of the
module in a compatible product without requiring certifying the
final product.
To ensure a reliable communication, the patented Z‐Wave
protocol supports automatic retransmissions, collision
avoidance mechanisms, frame acknowledgement, CRCs,
frequency agility, and mesh routing.
1.4 CERTIFICATION
1.2 APPLICATIONS

Z‐Wave slave and enhanced slave modules

HVAC thermostat

Light switch ‐ dimmer

Energy measurement device

Security systems

Sensor networks

Remote control of household appliances

Audio and video management
Limited modular certification

MODEL : SYN‐RF‐ZW01Ux‐L

FCC ID : OW7‐ZW01L

IC: 10525A‐ZW01UL
To use the module in FLiRS mode, please refer to the Sigma Design documentation.
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
1/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
TABLE OF CONTENT
1.1
TECHNICAL SUMMARY ............................................................................................................................................................. 1
1.2
APPLICATIONS .......................................................................................................................................................................... 1
1.3
DESCRIPTION ............................................................................................................................................................................ 1
1.4
CERTIFICATION ......................................................................................................................................................................... 1
Nomenclature ............................................................................................................................................................................... 3
FUNCTIONAL BLOCK DIAGRAM .................................................................................................................................................... 3
PIN MAP ........................................................................................................................................................................................ 4
ELECTRIC SPECIFICATIONS ............................................................................................................................................................ 5
5.1
Absolute maximal ratings ......................................................................................................................................................... 5
5.2
Recommended operating conditions ....................................................................................................................................... 5
5.3
Electrical specifications ............................................................................................................................................................ 5
5.4
Radio specifications (RF)........................................................................................................................................................... 6
5.5
Resetting the module ............................................................................................................................................................... 6
5.6
Unused pins .............................................................................................................................................................................. 7
5.7
Module communication ........................................................................................................................................................... 7
EXTERNAL NON‐VOLATILE MEMORY (Flash) ................................................................................................................................ 8
INTEGRATION GUIDELINES ......................................................................................................................................................... 10
7.1
Environmental considerations................................................................................................................................................ 10
7.2
Soldering................................................................................................................................................................................. 10
7.3
Connection diagram examples ............................................................................................................................................... 11
Mechanic information ................................................................................................................................................................ 12
8.1
PCB footprint .......................................................................................................................................................................... 12
8.2
Module dimensions ................................................................................................................................................................ 13
FCC Compliance Statement ........................................................................................................................................................ 14
10
IC Compliance Statement ........................................................................................................................................................... 15
11
Modification HISTORY ................................................................................................................................................................. 16
ANNEXES .................................................................................................................................................................................................. 17
INTEGRATION considerations for the STE402NP+ thermostat ................................................................................................... 18
1.1
Mechanic considerations........................................................................................................................................................ 18
1.2
PCB integration considerations .............................................................................................................................................. 18
integration considerations in the STE‐CIR034 heating Convector .............................................................................................. 19
2.1
Mechanic considerations........................................................................................................................................................ 19
2.2
PCB integration considerations .............................................................................................................................................. 19
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
2/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
2 NOMENCLATURE
SYN‐RF
‐
1.
RS
4.
SYN‐RF: Radio product
Series

3.
Functionality

2.
ZW01
ZW01: Z‐Wave protocol, series 01
Software stack

RS: Routing slave

ES: Enhanced routing slave
Option

Zone

5.
‐
L: Limited modular certification
U: US/CAN zone (908 MHz)
Model
SYN‐RF‐ZW01URS‐L
SYN‐RF‐ZW01UES‐L
Description
Z‐Wave radio module – routing slave software configuration
Z‐Wave radio module – enhanced routing slave software configuration
Zone*
Table 1 – Available options
3 FUNCTIONAL BLOCK DIAGRAM
Figure 1 – Block diagram ‐ SYN‐RF‐ZW01Ux module
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
3/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
4 PIN MAP
Figure 2 – Pin map
Pin #
Name
RESET_N
10
11
12
13
14
GND1
NVM_SCK
NVM_MOSI
NVM_MISO
NVM_CS
GND2
UART_B2RF
UART_RF2B
GND3
VCC
GND4
GND5
GND6
MCU Pin
Type
GND
P2.4 / SPI1_SCK
P2.2 / SPI1_MOSI
P2.3 / SPI1_MISO
P0.4
I/O
GND
P3.4 / UART0_RX
P3.5 / UART0_TX
GND
VCC
GND
GND
GND
Description
RESET function is active on low level – default to a high level via a 10K
Ohm pull‐up resistor embedded in the module
Power supply and circuit ground
SPI serial memory port – Data clock signal
SPI serial memory port – Data signal, module to external memory
SPI serial memory port – Data signal, external memory to module
SPI serial memory port – Memory selection (enable)
Power supply and circuit ground
UART serial communication port – Data signal, master to module
UART serial communication port – Data signal, module to master
Power supply and circuit ground
Power rail
Power supply and circuit ground
Power supply and circuit ground
Power supply and circuit ground
Table 2 ‐ Pin map
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
4/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
5 ELECTRIC SPECIFICATIONS
5.1 Absolute maximal ratings
Symbol
VDD‐GND
VIN‐GND
TSTOR
TAMB
Settings
Supply voltage
Voltage applied on an input
Storage temperature
Operating ambient temperature
Min
3.2
‐ 0.5
‐ 55
‐ 40
Typical
‐
‐
‐
‐
Max
85
85
Units
VDC
VDC
°C
°C
Min
3.3
‐
‐ 10
Typical
‐
‐
‐
25
Max
5.5
5.5
0.1
80
Units
VDC
VDC
∆V
°C
Min
2.2
‐
‐
‐
15
9.9
2.4
‐
‐
‐
‐
‐
‐
‐
Typical
‐
‐
‐
‐
‐
10.0
3.0
‐
‐
14.9
32.4
32
Max
‐
0.6
0.9
10
20
10.1
3.06
0.4
15.9
35.1
‐
‐
‐
Units
µA
kΩ
kΩ
mA
mA
mA
mA
µA
µA
Table 3 – Absolute maximal ratings2
5.2 Recommended operating conditions
Symbol
VDD‐GND
VIN‐GND
VRIPPLE
TAMB
Settings
Supply voltage
Voltage applied on an input
Maximum supply voltage ripple
Operating ambient temperature
Table 4 – Recommended operating conditions
5.3 Electrical specifications
Symbol
VIH
VIL
VIL_RESET
IIL
PUIN
PUIN_RESET
VOH
VOL
IO
IDD_ACTIVE
IDD_RX
IDD_TX_‐4
IDD_SLEEP
IDD_WUT
Parameter
High‐level threshold voltage, digital input
Low‐level threshold voltage, digital input
Low‐level threshold voltage, RESET_N input
Leakage current, any digital input
Internal pull‐up resistor, any digital input except RESET_N
Internal pull‐up resistor, RESET_N input
High‐level voltage, digital output port
Low‐level voltage, digital output port
Maximum current, digital output port
Supply current, processor clocked at 32 MHz
Supply current, Z‐Wave receiving
Supply current, Z‐Wav transmission at ‐ 4 dBm
Supply current, sleep mode, wake‐up timer inactive
Supply current, sleep mode, wake‐up timer active
Table 5 – Electrical specifications
The absolute maximal characteristics must not be exceeded under any circumstance. Exceeding these limits could cause permanent damage to the module.
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
5/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
5.4 Radio specifications (RF)
Data rate
Modulation
Frequency deviation
Channel bandwidth
Encoding
Frequency (Canada/US)
9.6 kbps
FSK
FC ± 20 kHz
90 kHz
Manchester encoded
908.42 MHz
40 kbps
FSK
FC ± 20 kHz
90 kHz
NRZ
908.40 MHz
100 kbps
GFSK
FC ± 29.3 kHz
110 kHz
NRZ
916 MHz
Zone
Table 6 – Z‐Wave radiofrequency specifications
Symbol
P9.6
P40
P100
Settings
Sensibility at 9.6 kbps
Sensibility at 40 kbps
Sensibility at 100 kbps
Min
‐
‐
‐
Typical
‐ 102.7
‐ 99.0
‐ 93.0
Max
‐ 101.0
‐ 97.2
‐ 91.8
Units
dBm
dBm
dBm
Min
‐
‐
‐
‐
‐
‐
‐
‐
Typical
‐4
‐ 59.6
‐ 47.6
‐ 88.1
‐ 95.2
‐ 107.3
‐ 113.1
‐ 113.8
Max
‐
‐
‐
‐
‐
‐
‐
‐
Units
dBm
dBc
dBc
dBc/Hz
dBc/Hz
dBc/Hz
dBc/Hz
dBc/Hz
Table 7 – Receiver sensibility (excluding the antenna)
Symbol
PRF
PH2
PH3
PN30kHz
PN100kHz
PN1MHz
PN10MHz
PN100MHz
Settings
Current transmitter power (RFPOW = 17 , 0x11)
Second harmonic (RFPOW = 20 (‐ 3 dBm))
Third harmonic (RFPOW = 20 (‐ 3 dBm))
Phase noise at 30 kHz
Phase noise at 100 kHz
Phase noise at 1 MHz
Phase noise at 10 MHz
Phase noise at 100 MHz
Table 8 – Transmitter performances (excluding the antenna)
5.5 Resetting the module
The module is reset by pulsing the RESET_N input low one time, as per the TReset_L specification in Table 9. To keep the module in
'reset', the RESET_N input must be continuously pulsed as per the specifications in Table 9.
Symbol
TReset_L
TReset_H
TReset_PU
Settings
Hold time, RESET_N low
Hold time, RESET_N high
Maximum time after a reset to return in active mode and be ready to execute the software
Min
Typical
Max
Units
‐
‐
‐
‐
4,000
us
us
ms
Table 9 – Reset mode
TReset_L
TReset_H
Figure 3 – Pulsing the RESET_N input to maintain the reset mode
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
6/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
The RESET_N input of the module must be driven by an open collector circuit. Driving this input with a push‐pull circuit could
damage the module. The RESET_N input integrates a pull‐up resistor to maintain this input high when not driven.
Do not add any external filter on this port; the module already includes a filter.
5.6 Unused pins
All unused pins must be left unconnected. There default level is internally fixed at 3.0 V typical on the module. The only exception is
the MISO input port that must be connected to GND when unused
5.7 Module communication
The communication with the module is performed via the serial UART (Universal Asynchronous Receiver/Transmitter), using the
UART_RF2B and UART_B2RF ports. The UART operating specifications must be configured as per Table 10 and Figure 4.
Settings
Bits per second
Data bits
Parity
Stop bit
Flow control
Value
115 200
non
non
Table 10 – UART configuration settings
Figure 4 – UART communication waveform
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
7/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
6 EXTERNAL NON‐VOLATILE MEMORY (FLASH)
Depending on the Z‐Wave network type desired, the module may require an external memory to operate.
Code
RS
ES
Software stack
Routing Slave
Enhanced Routing Slave
External memory needed
No
Yes
Table 11 – External memory requirement
In the case of an enhanced routing slave application, the memory needed shall meet the following requirements:
Settings
Value
1 Mbits
(CPOL = 0, SPHA = 0) & (CPOL = 1, CPHA = 1)
4 MHz
256 Bytes
256 Bytes
Yes
85 µs
25 ms
100 000 cycles typical
> 20 years
‐ 40 °C to 85 °C
Size
SPI modes supported
SPI clock frequency
Page Write size
Page Erase size
Software protection
Page Read
Page Write cycle
Endurance
Data Retention
Temperature
Table 12 – Serial Flash memory specifications
Command
WREN
WRDI
RDID
RDSR
WRSR
READ
FAST_READ
PW
PP
PE
SSE
SE
BE
DP
RDP
Opcode
0x06
0x04
0x9F
0x05
0x01
0x03
0x0B
0x0A
0x02
0xDB
0x20
0xD8
0xC7
0xB9
0xAB
Description
Write Enable
Write Disable
Read Identification
Read Status Register
Write Status Register
Read Data Bytes
Read Data Bytes at Higher Speed
Page Write (256 B)
Page Program
Page Erase (256 B)
Sub‐Sector Erase
Sector Erase
Bulk Erase
Deep Power‐down
Release from Deep Power‐down
Table 13 – Flash memory instructions
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
8/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
Bit
6, 5, 4
Name
SRWD
BP1
BP0
WEL
WIP
Description
Status Register Write Disable
Undefined
Block Protect 1
Block Protect 0
Write Enable Latch
Write in Progress
Table 14 – Flash memory status registers
Synapse Electronics recommends the following memory model that meets the requirements.
Type
Manufacturer
Part number
Memory space
Flash
Micron Technology
M25PE20
256 kB
Table 15 – External memory recommended
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
9/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
7 INTEGRATION GUIDELINES
The SYN‐RF‐ZM01Ux is a surface mount module. Its shape and dimensions are illustrated in Figure 8. The PCB has a thickness of 1.6
mm and an interconnection footprint of castellation type. Figure 7 illustrates the recommended PCB footprint.
A PCB antenna is integrated on the module. The ground plane of the master PCB (receiving the module) acts as a counterbalance for
the PCB antenna. The ground plane’s dimensions have a major impact on the antenna performance. It is recommended to maximize
the surface of this ground plane on the master PCB.
All GND pins shall be directly connected to the ground plane of the master PCB. If thermal‐relief connexion vias are used, the
combined width shall be no less than 0.5 mm.
7.1 Environmental considerations
The radio performances of the module are greatly affected by its environment. The annexes at the end of this document provide
guidelines to integrate the module in different master products. The integration of this module in products other than the ones
presented would require careful verification of the radio performances and characterization.
7.2 Soldering
The module must be hand soldered. It has not been designed for reflow soldering, as it could result in a permanent damage of the
module.
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
10/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
7.3 Connection diagram examples
RESET_N
UART_RF2B
UART_B2RF
3.3V
U1
RESET_N
11
VDD
NVM_SCK
NVM_MOSI
NVM_MISO
NVM_CS
UART_RF2B
UART_B2RF
C1
1 uF
10
12
13
14
GND1
GND2
GND3
GND4
GND5
GND6
SY N-RF-ZM01xx
Figure 5 – Connection without external memory
RESET_N
UART_RF2B
UART_B2RF
3.3V
U1
RESET_N
VDD
NVM_SCK
NVM_MOSI
NVM_MISO
NVM_CS
UART_RF2B
UART_B2RF
GND1
GND2
GND3
GND4
GND5
GND6
11
10
12
13
14
C1
1 uF
SY N-RF-ZM01xx
3.3V
C2
R1
R2
U2
VCC
WP#
HOLD#
CS#
SO/SIO1
SI/SIO0
SCLK
GND
External NVM
Figure 6 – Connection with external memory
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
11/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
8 MECHANIC INFORMATION
8.1 PCB footprint
Figure 7 – Recommended PCB footprint
Notes:
1.
Dimensions are in mm;
2.
No material must be in the PCB keep‐out zone, including FR4 dielectric. Perform an opening in the master PCB, or place the
module in periphery, with the keep‐out zone lying outside the master PCB;
3.
The module includes vias on its bottom layer, facing the master PCB. Make sure that there is no conductive material
exposed on the master PCB, under the module. Exposed conductive material could cause a short circuit on the module or
the master PCB, and potentially damage them.
The solder joint between the module's castellated pads and the master PCB pads shall meet the appropriate IPC requirements.
Please refer to the document 'IPC‐A‐610 Acceptability of Electronic Assemblies', section 8.2.4 Castellated Terminations.
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
12/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
8.2 Module dimensions
Figure 8 – Module dimensions in mm
Note: The shielding box is not included in the SYN‐RF‐ZW01Ux‐L versions.
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
13/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
9 FCC COMPLIANCE STATEMENT
FCC Warning
NOTE: This equipment 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.
This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the
instructions, may cause harmful interference to radio communications.
However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful
interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged
to try to correct the interference by one or more of the following measures:

Reorient or relocate the receiving antenna.

Increase the separation between the equipment and receiver.

Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

Consult the dealer or an experienced radio/TV technician for help.
Caution
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.
Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate
the equipment.
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
14/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
10 IC COMPLIANCE STATEMENT
This device complies with Industry Canada license‐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.
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est
autorisée aux deux conditions suivantes:
1.
L'appareil ne doit pas produire de brouillage, et;
2.
L'utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi, même si le brouillage est susceptible d'en
compromettre le fonctionnement.
Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and maximum (or lesser) gain
approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type and its
gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for successful
communication.
Conformément à la réglementation d'Industrie Canada, le présent émetteur radio peut fonctionner avec une antenne d'un type et
d'un gain maximal (ou inférieur) approuvé pour l'émetteur par Industrie Canada. Dans le but de réduire les risques de brouillage
radioélectrique à l'intention des autres utilisateurs, il faut choisir le type d'antenne et son gain de sorte que la puissance isotrope
rayonnée équivalente (p.i.r.e.) ne dépasse pas l'intensité nécessaire à l'établissement d'une communication satisfaisante.
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
15/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
11 MODIFICATION HISTORY
Rev.
Date
January 2015
April 2015
September 2015
September 2015
Description
Initial release
Global update following the module revision
Official release – Certification information added
Regulatory – FCC & IC – Statement added
Table 16 – Modification history
Synapse Électronique Inc.
1010, 7th Avenue, Grand‐Mère
(Quebec) G9T 2B8, Canada
Tel : 1‐819‐533‐3553
Fax : 1‐819‐533‐3577
www.synapseelectronique.com
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
16/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
ANNEXES
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
17/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
INTEGRATION CONSIDERATIONS FOR THE STE402NP+ THERMOSTAT
1.1 Mechanic considerations
The design and verifications on the STE402NP+ thermostat were performed in accordance with the following specifications. Doing
otherwise than indicated in this section could negatively impact the radio performance.
Mechanic integration in the STE402NP+ in mm
1.2 PCB integration considerations
Development and tests were done with the layout and the ground plane illustrated hereunder. Doing otherwise than indicated in
this section could negatively impact the radio performance.
Module integration on the STE402NP+ PCB in mm
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
18/19
SYN‐RF‐ZW01Ux Z‐WAVE RADIO MODULE
TECHNICAL SPECIFICATION
2 INTEGRATION CONSIDERATIONS IN THE STE‐CIR034 HEATING CONVECTOR
2.1 Mechanic considerations
The design and verifications were done according to the following specifications. Doing otherwise than indicated in this section
could negatively impact the radio performance.
Mechanic integration in the CIR034 (convector) in mm
2.2 PCB integration considerations
Development and tests were done with the layout and the ground plane illustrated hereunder. Doing otherwise than indicated in
this section could have an impact on the radio performance.
Module integration in the CIR‐034 heating convector in mm
Rev. 3 – September 015
CONFIDENTIALITY: The information in this document is strictly confidential and is the sole property of Synapse Électronique Inc. This
information may not be reproduced, used or transmitted in any form, in part or in whole, without the written consent of Synapse Électronique Inc.
19/19

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