REnex Technology PT2400GS20-A Spread Spectrum Transmitter User Manual coRE3

REnex Technology Limited Spread Spectrum Transmitter coRE3

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REnex Technology Ltd
ZcoRE3-2400
(ZcoRE3-2400/ZcoRE3(20)-2400)
OEM Serial Wireless Transceiver Module
User Manual
Version 1.0
May, 2007
This manual covers the operations of the ZcoRE3-2400 family of serial OEM wireless
transceiver modules. For the most part, operation of each product in the ZcoRE3-2400 family
is identical; where operating differences exist, every effort has been made to clearly identify
which product is being referred to.
This manual is produced for users of the ZcoRE3-2400 OEM wireless transceiver module
from REnex Technology Limited. It covers the operating principles and capabilities of the
ZcoRE3-2400 module. It is recommended that you read this document before using the
ZcoRE3-2400 module in order to operate it correctly and optimize its performance.
WARRANTY
REnex Technology’s ZcoRE3-2400 module is warranted against defect in
materials and manufacturing for a period of two years from date of
purchase. In the event of a product failure due to materials or workmanship,
REnex will, at its discretion, repair or replace the product. REnex and its
suppliers shall in no event be liable for any damages arising from the use
of or inability to use this product. This includes business interruption, loss
of business information, or other loss which may arise from the use of the
product.
WARNING
Changes or modifications to this unit not expressly approved by the party
responsible for compliance could void the user’s authority to operate the
equipment.
REMINDING
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.
While using for ZcoRE3(20)-2400, precaution below is necessary:
PRECAUTION
1. The installed antenna must not be located in a manner that allows
exposure of the general population at a distance of less than 4cm.
2. Mount the antenna in a manner that prevents any personnel from
entering the area within 4cm from the central position of the antenna.
3. It is recommended that the installer place radio frequency hazard
warnings signs on the barrier that prevents access to the antenna.
4. Prior to installing the antenna to the antenna connector, make sure the
power is adjusted to the settings specified in section of this manual.
5. During antenna installation, be sure that the power to the equipment is
turned off in order to prevent any energy presence on the coaxial
connector.
This manual contains information of proprietary interest to REnex Technology Limited. It has
been supplied in confidence to purchasers and other authorized users of the ZcoRE3-2400
module, and by accepting this material, the recipient agrees that no part of the document
shall be reproduced or transmitted in any form or by any means, without prior written consent
of REnex Technology Limited.
Information in this document is subject to change without notice.
REnex Reference Number:
Print Date: Feb. 2007
© 2006-2010 REnex Technology Limited. All rights reserved.
Microsoft and Windows are registered trademarks of Microsoft Corporation.
HyperTerminal is copyrighted by Hilgraeve Inc, and developed for Microsoft.
All other products mentioned in this document are trademarks or registered trademarks of their respective
holders.
ZcoRE3-2400_User_Manual_V1.0
Document Version History:
Version
Release Date
Comment
V1.0
Feb 28,2007
Initial Release
V1.1
May 18 2007
Updating for Approval
iii
ZcoRE3-2400_User_Manual_V1.0
Table of Content
1.
2.
3.
4.
5.
6.
7.
8.
Introduction...............................................................................................................................1
Technical Parameters ................................................................................................................2
Module Interface .......................................................................................................................3
3.1
1.27 mm Pin Header Interface.......................................................................................3
3.2
RF Interface...................................................................................................................6
3.3
RMCI interface..............................................................................................................7
3.4
Wakeup..........................................................................................................................8
Power Supply ............................................................................................................................8
Module Configuration...............................................................................................................8
RAEMESH Module Command Interface (RMCI).................................................................. 11
6.1.1
Serial port setting ............................................................................................ 11
6.1.2
Package format................................................................................................ 11
6.1.3
Quick review of RMCI....................................................................................12
Mechanical Drawing ...............................................................................................................17
7.1
Top View .....................................................................................................................17
7.2
Bottom (top perspective).............................................................................................18
Order Information ...................................................................................................................19
iv
ZcoRE3-2400_User_Manual_V1.0
Terms:
Coordinator:
A FFD used for gateway. Only one coordinator per network.
FFD:
Full Function Device. Sensor node with routing ability. FFD requires line power all time.
RFD:
Reduce Function Device. A Sleeping node can only talk to a FFD or Coordinator. Can not relay
the message. Can be a battery powered device.
RCM:
Radio Communications Module
RDTE:
Reader Data Terminal Equipment.
SDTE:
Sensor Data Terminal Equipment.
RMCI:
RAEMESH Module Command Interface.
RCM:
Radio Frequency Communication Module, ZcoRE3-2400/ZcoRE3(20)-2400 OEM module
ZcoRE3-2400_User_Manual_V1.0
1.
Introduction
The ZcoRE3-2400 serial OEM transceiver module is a small size, high performance wireless
module, which is designed to provide a cost efficient solution for reliable data transmission and
low power consumption. It is ideal for low data rate wireless applications, including sensor
monitoring, building automation, security systems and any other application requiring low power
consumption. The ZcoRE3-2400 module family includes devices that work at two different RF
power, including 0dBm and 18dBm, to enable license-free operations in varies applications.
The ZcoRE3-2400 module offers data communication capabilities to application equipment
via a standard UART interface. Using a pair of ZcoRE3-2400 wireless modules, users can transfer
data between almost any type of equipment that use this interface.
The ZcoRE3-2400 module provides two power modes, normal working mode and sleep
mode, which has very low power consumption since the device can neither transmit nor receive
data in this mode. Switching to sleep mode whenever possible generally creates significant energy
savings, which is important for battery-powered systems.
These modules are preloaded wireless sensor mesh network application (RAEMESH), which
was developed based on EmberZnet 2.23 mesh stack. This documentation also describes the
RAEMESH Module Command Interface (RMCI) for IEEE 802.15.4/Zigbee enabled RF Module
(RCM), Including ZcoRE3 (20)-2400 and ZcoRE3-2400.
By using RMCI, users can easily integrate the mesh radio into a wide range of applications
without pain to develop the mesh stack by themselves and no RF expertise is required.
Features of ZcoRE3-2400:
Mesh network
ISM frequency bands – 2.4 GHz ~ 2.4835GH
High receiver sensitivity - superior transmission range for a given RF power
Designed to hazardous industrial requirements - may be used in instruments certified for
intrinsic safety operation
y Low power consumption - conserves battery power
y Small size, light weight - easy to integrate
y Low cost - cost-efficient systems
Application examples:
Smart badges
Remote monitoring and control
Perimeter security/access control
Medical instrumentation
Environmental monitoring
Sensor networks
Diagnostic monitoring
Industrial telemetry
Automatic meter reading
…
ZcoRE3-2400_User_Manual_V1.0
2.
Technical Parameters
Table 2.1 Technical Parameters of ZcoRE3-2400/ZcoRE3(20)-2400
Radio Characteristics
RF Frequency Band
2.4 ~ 2.4835GHz
Number of Channels
16 channels
Channel Spacing
5 MHz
RF Data Rate
250 kbps
Modulation
OQPSK
Duplex
TDD
Maximum E.R.P.
1 (0 dBm) ~ 60 mW (18 dBm)
Receiver Sensitivity
-3
-95 dBm at 10 BER
Receiver Classification
Class 2
Operating Range
Up to 1 km in line-of-sight(18dBm)*
Network Protocol
Zigbee & IEEE 802.15.4 compliant
Operating Mode
Mesh
Error Detection
CRC and ARQ
CE:
Radio Type Approval
FCC:
EN300-328
Part 15.247
SRRC & Middle-East : (pending)
Intrinsic Safety Design
UL C1D1 / ATEX T4
Miscellaneous
I/O Interface
Serial TTL with universal socket: 2 x 20 pins with 1.27 mm
Two digital I/O; one analog I/O;
I/O Option
RS-232(TTL) for optional modules (Bluetooth, GPS, GPRS and
WiFi)
Antenna Port Interface
Chip antenna(0dBm,18dBm)/MMCX female(18dBm)
Power Supply
3.3 ±.3V
Normal working mode:
Power Consumption
Tx:
44 mA | 230mA(18dBm)@ 3.3 V
Rx:
35 mA | 35mA(18dBm)@ 3.3 V
Sleep mode:
9 uA | 9 uA(18dBm) @ 3.3 V
Operating Temperature
-40 C to 75 C
Humidity
20% to 90% non-condensing
Dimensions (L × W × H)
46.5 mm x 26 mm x 10 mm
Weight
10 grams (0.35 ounce)
*Depending on the interference environment.
ZcoRE3-2400_User_Manual_V1.0
3.
Module Interface
The module interface includes the power input (3.3 V), power output (3.3 V), configuration
button signal, serial ports (CMOS 3.3 V), A/D, I2C, test signal, JTAG and digital I/O, etc. These
are integrated on a dual row, 20 pins per row, 1.27 mm pitch connector (J1). Refer to Table 3.1
for a detailed pin definition.
REnex can provide an evaluation kit for the ZcoRE3-2400/ZcoRE3 (20)-2400 module, which
includes 4 modules and 4 evaluation mother board (refer to the ZcoRE3-2400 evaluation kit user
manual for more details). The module interface and other important IO are provided on the
module evaluation board.
The users can also design their own application board with the required module interface. Two of
the most important interfaces are the pin header interface and the RF interface described below.
3.1
1.27 mm Pin Header Interface
The pin header interface of the ZcoRE3-2400/ZcoRE3(20)-2400 is designed using a dual row
1.27 mm socket with a total of 40 pins. The JVE 21N21040-40M00B-01G-2.2/5.8 will be
mounted on when the module is shipped. Refer to the JVE datasheet for detailed socket
information.
Users that want to use a different socket can also request that the pin header is not mounted.
These users must make sure to match the PCB design of the interface. The following is a general
drawing of the JVE socket (dimensions in mm).
To match the ZcoRE3-2400/ZcoRE3(20)-2400 interface using the JVE pin header, JVE
22p8702-40M00B-01G-4.5 is an appropriate housing. The following is a general drawing of the
JVE housing (dimensions in mm).
ZcoRE3-2400_User_Manual_V1.0
The pin definition of the header interface is shown on Table 3.1; the input and output description is
based on module side. The main serial port is port 1 which includes TxD1 (pin 5) and RxD1 (pin
7). It will be set as the default port in the factory. There are three UART ports which can be used
on the module.
Pin 3 (RST) is the reset input; the module will reset if a low level signal is input.
The ZcoRE3-2400/ZcoRE3(20)-2400 module provides RFD two power modes, wakeup and sleep
mode. In wakeup mode, the module can execute normal operations, transmit and receive data via
the RF channel. A low level input on Pin 19 will put the RFD module enter sleep mode.
Pin 17, 28 and 30 can be used for temperature or battery voltage detecting input.
Pins 27, 32, 34, 36, 38 are reserved for In-System Programming (ISP), and also for firmware
debugging. All these pins are dedicated to JTAG and cannot be used for any other IO functions.
ZcoRE3-2400_User_Manual_V1.0
Table 3.1:
Pin Definition of J1
Pin
Function
IN/OUT
Description
Remark
GND
COMM
Ground
GND
COMM
Ground
RST
IN
Reset signal input
GND
COMM
Ground
TxD1
OUT
UART1, transmit data
TxD0
OUT
UART0, transmit data
RxD1
IN
UART1, receive data
RxD0
IN
UART0, receive data
GPIO0
IN&OUT
General IO
10
LED_2
OUT
LED control signal
11
GPIO1
IN&OUT
General IO
12
LED_3
OUT
LED control signal
13
GPIO2
IN&OUT
General IO
14
LED_4
OUT
LED control signal
15
GPIO3
IN&OUT
General IO
16
LED_5
OUT
LED control signal
Connect to LED for debugging
17
TEMP_EN_GPIO4
IN&OUT
Temperature /GPIO
Temperature Enable (active high)
18
PS_CS
IN
Reserved,
PACKET_TRACE_CS
19
GPIO5
IN
Reserved,
20
PS_FRAME
IN
Reserved,
21
BUZZER_GPIO6
IN&OUT
Buzzer or General IO
22
3.3V_Vout
OUT
3.3V output
External power output, 20mA max
23
PS_DIR_GPIO7
IN&OUT
General IO
PACKET_TRACE_DIR
24
GND
COMM
Ground
25
BUTTON_0_GPIO8
IN&OUT
Button 0 input/GPIO
26
AREF
OUT
Reserved,
27
BUTTON_1_GPIO9
IN
Button 1 input/GPIO
28
ATEMP_ADC1
IN&OUT
General IO/ADC1
29
DBG_SYNC_GPIO10
OUT
RF debug/GPIO10
30
ADC2
OUT
ADC2
Temperature calibration
31
RF_SO
OUT
Reserved,
RF testing points
32
JTCK
IN
Reserved,
JTAG, common clock
33
RF_SI
IN
Reserved,
RF testing points
34
JTMS
IN
Reserved,
JTAG, mode selection
35
RF_SCLK
IN
Reserved,
RF testing points
36
JTDO
OUT
Reserved,
JTAG, serial data out of service
37
RF_SFD
IN
Reserved,
RF testing points
38
JTDI
IN
Reserved,
JTAG, serial data into service
39
3.3Vin
IN
3.3V, power input
40
3.3Vin
IN
3.3V, power input
External reset, active low
Default serial port
Default serial port
Connect to LED for debugging
Connect to LED for debugging
Connect to LED for debugging
PACKET_TRACE_FRAME
Reference level output
Battery pack voltage input
ZcoRE3-2400_User_Manual_V1.0
3.2
RF Interface
Different RF interfaces are provided on the ZcoRE3-2400 module.
For the ZcoRE3-2400 module, only a chip antenna can be soldered on when the modem ship out.
Refer to diagram below for detail information of chip antenna.
For the ZcoRE3(20)-2400 module, only the external antenna is available. P1 (refer to mechanical
drawing) is designed on PCB board for the reversed SMA antenna connection via a special RF
cable. The socket is user a right-angle straight MMCX (Miniature Microax RF Coaxial)
connector which can be soldered on the top of PCB when the module is delivered. The maximum
height of the MMCX socket is less than 4 mm. If customer would like to use a different socket,
they may also elect not to have the MMCX socket soldered on. In that case, they should be sure
to match the PCB design of the socket.
To connect with the SMA antenna, a MMCX-to-SMA converter RF cable is provided together
with the ZcoRE3(20)-2400 module as option.
Refer to table and picture below for detail information of SMA antenna.
Model: RO-IK-0504
Electrical Item
Specifications
Type of antenna
Dipole antenna
Frequency range
2.40 ~ 2.48 GHz
Electrical length
1/2λ
Nominal impedance
50 Ohm
Remarks
Polarization
V.S.W.R
Peak gain
Mechanical Item
Element
Less than 2.0
1.5 dBi
Specifications
Remarks
RG-316 cable
Sleeve
Urethane
Black
Base
Nylon 66
Black
SMA male
Ni plate
Connector
Antenna total length
3.3
Vertical
168 ± 3 mm
RMCI interface
The module is pre-loaded with the EmberZnet bootloader (version:1005), which supports both
over-the-air bootloading and serial bootloading of firmware update. The module contains
RAEMESH application developed base on EmberZnet stack 2.23 and comply with the RAE
System’s RCS protocol. The module also has built-in RAEMESH Module Command Interface
(RMCI). Section 6 is focused on the instruction on RMCI interface.
The RMCI command interface allows customer to easily access to low level mesh functionality
without pain to develop the firmware. The module can be configured to a coordinator to hook up
to a getaway or just a standalone regular full function node or a sleepy reduce function node.
Make sure to configure the module to right mode before using.
ZcoRE3-2400_User_Manual_V1.0
3.4
Wakeup
If the radio is set to RFD mode, the Wakeup pin Pin19 is used to make the radio asleep and
wakeup. A constant high on this pin will make the radio go to the sleep mode and a low level
signal on this pin will wake-up the radio.
The Radio sleep mode is the power save mode with very low power consumption. (<60uA)
The Wakeup pin must be held up to 10ms before sending a data packet.
4.
Power Supply
As OEM module, the power supply should be provided by the main equipment, in which the
OEM module is built. Normally, a 3.0 ~ 3.6V DC power is required.
5.
Module Configuration
Enter Configuration Status
Via the TXD and RXD pins the command interpreter can be accessed. The RCM can buffer up to
128 bytes of incoming data in a software FIFO buffer and uses XON/XOFF flow control. See the
datasheet of the Atmel Atmega 128L for more information about the build-in UART. Connect
Pin5 (TXD1) and Pin7 ( RXD1) to the customer board. Use the following settings for serial port.
Bits per second
Data bits
Parity check
Stop bits
Flow control
Coordinator
19,200
None
None
FFD and RFD
19,200
None
None
PC communication
Confirm that the serial port debugging software is installed on the PC. For example:
sscom32.exe. Microsoft Hyper Terminal is not recommended for this application because it is not
good to send characters and commands in Hex.
Data packet
RCM will transmit any data in the { }, and all data in the {} will be transparently sent out
without radio’s interpretation. The maximum data packet is 50 bytes including {}.
The data in the {} can be any characters including ‘{’, ‘}’, ‘[’and ‘]’.
The interval between two data packets must be >50 ms for FFD and coordinator.
The interval between two data packets must be >1 s for RFD.
For old RAEWATCH_PSP
When the sensor node sends data to gateway, the gateway will receive the data plus the last four
digits of sensor node ID in the {}. When the gateway sends data to sensor node, the sensor node
radio will only receive data in the {}.
For RAEWATCH_RCS
The data in the {} will be untouched by either gateway or sensor node. You get what you send.
For RCS details, refer to: 904-E800-120 RAEWATCH WSN Communication Standard.doc
ZcoRE3-2400_User_Manual_V1.0
Base on correct setting and connection, you will see following display on your screen when
power is applied.
Coordinator:
EVENT: emberInit passed
INIT: sink app 000D6F0000002DF8 chan:0x1A, pwr:FF, panID:0x30FF
EVENT: stack Status now EMBER_NETWORK_UP
EVENT: setting multicast binding, status is 0x00
FFD:
EVENT: emberInit passed
FFD SENSOR APP: joined to network
000D6F0000002DA5 chan:0x1A, pwr:FF, panID:0x30FF
EVENT: stack Status now EMBER_NETWORK_UP
EVENT: setting multicast binding, status is 0x00
This is a free sensor.
RFD (if there is a coordinator or FFD)
EVENT: emberInit passed
RFD Sleep SENSOR APP: joined to network
000D6F0000002DA5 chan:0x1A, pwr:FF, panID:0x30FF
EVENT: stack Status now EMBER_NETWORK_UP
EVENT: setting multicast binding, status is 0x00
This is a free sensor.
RFD (if there is no coordinator or FFD)
EVENT: emberInit passed
RFD Sleep SENSOR APP: joined to network
000D6F0000002DA5 chan:0x1A, pwr:FF, panID:0x30FF
EVENT: stackStatus now MOVE_FAILED. Lost the Parent (Coordinator)
10
ZcoRE3-2400_User_Manual_V1.0
6.
RAEMESH Module Command Interface (RMCI)
6.1.1
Serial port setting
Between RDTE and RRCM: 38400 bps, 8N1
Between SDTE and SRCM: 19200 bps, 8N1
6.1.2
Package format
Packet format as listed below:
Byte
SOP
Length
Command Code
Command Data
EOP
0~n
The minimum length for one packet is 4 bytes long. The Length is 0x20 based. E.g. the total
length of a packet without command data is 4, the Length byte is 0x20 + 4 = 0x24.
The SDTE or RDTE always initiate the communication with Radio module (RRCM,
SRCM). Radio module responses to the command it received.
The Command Code for packet sent from SDTE or RDTE to Radio module is even, the
response from Radio module to SDTE or RDTE is 1 higher than the command code.
Command Data can be empty.
Table 5.1: Byte definition of packet
Byte Number
Name
SOP
Length
Command Code
Comment
Radio Protocol beginning of packet. This is always ‘[’ (0x5B)
Total length of packet + 0x20, include ‘[’ and ‘]’.
0x20 ~ 0xFF.
**Excluding: 0x5A~0x5F and 0x7A~0x7F.
**0xF0~0xFF are reserved for common commands such as help, version etc.
Even for packet sent from SDTE or RDTE to RCM.
Odd for packet response from RCM to SDTE or RDTE.
Command Data
…
…
N+3
EOP
Hex
…
Radio protocol end of packet. This is always ‘]’ (0x5D).
Notes:
1. Always perform a Network Joining for FFD before using it. A coordinator must be
presented when perform the network joining. Command: 5B24505D.
2. Check RCM’s information when turn on the radio. Command: 5B24605D.
3. Wait at least 5s for RCM to finish the initialization.
11
ZcoRE3-2400_User_Manual_V1.0
4.
5.
6.
7.
Check the Network Status of the RFD before sending the data at the first time. Command:
5B24205D.
It is recommend 1s interval between two data packets for RFD. Check [] for sending
acknowledge in Unicast mode. There is no ACK for multicast mode.
For RFD, if there is no network, the RCM will automatically wake up every 1 minute to
search for a new network. It can be interrupted at any time. RCM will keep in asleep if it
has joined a network.
For debug purpose, check network status and Parent ID of RFD.
6.1.3
Quick review of RMCI
5b24205d = NETWORK_STATUS
5b24225d = GET_BINDING_LIST
5b24245d = SYSCH_ADVERTISE
5b2526XX5d = COM_UNICAST_RID. XX is the radio index
5b24285d = DEL_RMT_BINDING
5b242c5d = COM_MULTI_RID
5b24305d = GATEWAY_ENABLE. Enable Coordinator function.
5b24325d = FFD_ENABLE. Enable Full Functional Device function as a Router.
5b2534XX5d = CHAN_RRCM_CHANNEL. XX is channel number (0x0B-0x1A).
5b2536XX5d = DEL_LOCAL_BINDING. XX is the binding index started from 1.
5b24385d = RPT_SENSOR_POSITION.
5b243E5d = LEAVE THE NETWORK.
5b24465d = RFD_ENABLE. Enable RFD function.
**PE7 High makes radio sleep.PE7 Low actives the radio.
5b24485d = SOFT_RST. Perform soft reset.
5b244A5d = RACTORY_RST. Restore the radio to factory setting.
5b244C5d = VERSION_CHK. Check the firmware version of the Radio.
5b244E5d = PRINT_TOKEN. Print stack and application tokens.
5b24505d = JOIN_FORM_NETWORK. Form (Gateway) or Join (Sensor) a new network.
5b24525d = MULTICAST_HELLO. Say HELLO to the world.
5b24545d = PRINT_CHILD_TABLE. Print Child table.
5b24565d = BOOT_LOADER. Launch the standalone boot loader.
5b24605d = GET_NODE_INFO. Get Radio's information like EUI, channel and PANID.
5b24625d = BUTTON_0_PRESS. Press Button 0.
5b24645d = BUTTON_1_PRESS. Press Button 1.
5b2566xx5d = SET_PROTOCOL. Set communication protocol.
**RAEWATCH: 0, RCS: 1, Transparent: 2.
5b24685d = GET_PARENT_ID. Get the parent ID for RFD.
5b24705d = JIT_MSG_STATUS. Just In Time Message Status.
5b24F05d = HELP
5b24F25d = PRINT ASCII BINDING TABLE.
5b2CF4xxxx0000006F0D005d = Pass the image to remote node through the Gateway.
5b2CF6xxxx0000006F0D005d = Clone the Gateway image to a remote node.
12
Table 5.2.1: Detailed information of RMCI package
Command Name
NETWORK_STATUS
CMD
CMD Data
Response
Response CMD
Code
(bytes)
CMD Code
Data (Bytes)
0x20
None
0x21
Description
STATUS(1)
Return the radio’s network status
0x00: NO NETWORK
Use on:
0x01: JOINING NETWORK
Coordinator
0x02: JOINED NETWORK
FFD
0x03: JOINED_NETWORK_NO_PARENT
RFD
0x04: LEAVING NETWORK
GET_BINDING_LIST
0x22
None
0X23
Use on:
Radio ID(8)
For FFD and RFD: Radio return with bound target ID with index=0x00.
Radio Index(1)
For Coordinator: Return bound node ID with index separately for each bound radio
Coordinator
nodes.
FFD
Start from 0 and up to 30.
RFD
*: Use this command after SYNCH_ADVERTISE.
SYNCH_ADVERTISE
0x24
None
0X25
None
Requests RCM to synchronize all radio nodes in the network to bind with the coordinator.
Use on:
Nodes are in the Unicast mode after executing this command.
Coordinator
The maximum binding table size is 30 due to RAM limitation.
COM_UNICAST_RID
0x26
Radio index(1)
0X27
None.
Requests RCM to send following data to specified radio nodes in Unicast mode per radio
Use on: Coordinator
DEL_RMT_BINDING
index.
0x28
None
0X29
None
Using datagram.
Requests RCM to send a delete binding command to all nodes in network. All nodes in the
Use on: Coordinator
network became to free nodes and will communicate in Multicast mode. RFD will not
respond this command.
COM_MULTI_RID
0x2C
None
0X2D
none
Requests to go back to multicast mode after using COM_UNICAST_RID. All data after
Use on: Coordinator
COOR_ENABLE
this command will be broadcasted.
0x30
None
0x31
None
Set the radio as a Coordinator so that the radio can be use on a Gateway device.
Use on: FFD/RFD
Baud rate change to 38400 8N1
13
Table 5.2.2: Detailed information of RMCI package
Command Name
FFD_ENABLE
CMD
CMD Data
Response
Response CMD
Code
(bytes)
CMD Code
Data (Bytes)
Description
0x32
None
0x33
None
Set radio to FFD. Always on and has router function.
0x34
Channel
0x35
None
Requests RCM in the Gateway to change its radio channel to specified channel.
Use on: Coordinator/RFD
CHG_RRCM_CHAN
Use on:
Number(1)
0x0B to 0x1A total 15 channels.
Coordinator
DEL_LOCAL_BINDING
Corresponding to 11 to 26 of IEEE 802.15.4.
0x36
Use on:
Binding
0x37
None
Deletes binding indexes stored in the radio.
index(1)
Binding index is from 1 to 30.
Coordinator/FFD/RFD
RPT_LOCATION
Always 1 for FFD and RFD
0x38
None
0x39
None
Report RFD parent’s ID.
0x3E
None
0x3F
None
Leave the current network
0x46
None
0x47
None
Put a node into RFD. PE7 interrupt enable. Active low.
SOFT_RST
0x48
None
0x49
None
Reset the radio
FACTORY_RST
0x4A
None
0x4B
None
Restore the RCM to factory defaults.
Use on: RFD
LEAVE_NETWORK
Use on: Coordinator/FFD/RFD
RFD_ENABLE
Use on: Coordinator/FFD
Use on:
Channel: 0x1A, Power: 0xFF, PanID: 0x30FF Sensor Node FFD.
Coordinator/FFD/RFD
Baud rate: 19200 8N1
VERSION_CHK
0x4C
None
0x4D
DS[0] = ‘V’
Request Firmware Version. Return In ASCII.
Use on:
DS[1~n+1]
e.g.: “ EZ2.23.0.0 ”
Coordinator/FFD/RFD
Firmware
Send:5B244C5D
Version [0~n]
Return:5B 2E 4D 45 5A 32 2E 32 33 2E 30 2E 30 5D
14
Table 5.2.3: Detailed information of RMCI package
Command Name
PRINT_TOKEN
CMD
CMD Data
Response
Response CMD
Code
(bytes)
CMD Code
Data (Bytes)
0x4E
None
0x4F
Print radio’s Token information in ASCII.
Use on: Coordinator/FFD/RFD
JION_FORM_NETWORK
Description
For PC debug
0x50
None
0x51
None
Coordinator:
Form a network to allow the other nodes to join.
Use on:
FFD/RFD:
Coordinator/FFD/RFD
Search the network and try to join the network.
MULTICAST_HELLO
0x52
None
0x53
None
Broadcast a “hello” to entire network
0x54
None
0x55
None
Print the child table in ASCII
0x56
None
0x57
none
Start the bootloader to download the radio application
0x60
None
0x61
Radio ID(8)
Get the node information: EUI, Channel, Power, PAN ID,
Channel(1)
Send: 5B24605D
Use on:
Power(1)
Return:
Coordinator/FFD/RFD
PAN ID(2)
5B 30 61 00 0D 6F 00 00 00 2D A5 1A FF 30 FF 5D
Use on: Coordinator/FFDRFD
PRINT_CHILD_TABLE
Use on: Coordinator/FFD
BOOT_LOAD
Use on: Coordinator
GET_NODE_INFO
BUTTON_0_PRESS
0x62
None
0x63
None
Simulate Button Zero pressed
0x64
None
0x65
None
Simulate Button One Pressed
0x66
Protocol(1)
0x67
None
Set radio’s protocol
Use on: Coordinator/FFD/RFD
BUTTON_1_PRESS
Use on: Coordinator/FFD/RFD
SET_PROTOCOL
Use on: Coordinator/FFD/RFD
0x00: RAEWATCH_PSP.(old version) 0x01: RAEWATCH_RCS. 0x02: Transparent Mode.
15
Table 5.2.4: Detailed information of RMCI package
Command Name
GET_PARENT_ID
CMD
CMD Data
Response
Response CMD
Code
(bytes)
CMD Code
Data (Bytes)
0x68
None
0x69
Parent
radio
ID(8)
Description
Get the parent ID for RFD
Return:
5B 2C 69 00 0D 6F 00 00 00 2E CB 5D
Use on:
if no parent, return
RFD
5B 2C 69 00 00 00 00 00 00 00 00 5D
HELP
0xF0
None
0xA1
None
List all RMCI commands in ASCII
0xF2
None
0xA3
None
List all bindings in a table in ASCII
0xF4
Remote
Radio
0xF5
None
Bootload remote node in pass through mode.
Radio
0xF7
None
Bootload remote node and update the firmware in clone mode. Fast way.
Use on: Coordinator/FFD/RFD
PRINT_BINDING_TABLE
Use on: Coordinator/FFD/RFD
BOOTLOAD_PASSTHROUGH
Use on: Coordinator
BOOTLOAD_CLONE
Use on: Coordinator
ID(8)
0xF6
Remote
ID(8)
16
ZcoRE3-2400_User_Manual_V1.0
7.
7.1
Mechanical Drawing
Top View
Units: mm
Note:
1: E1 is for the chip antenna and available only in ZcoRE3-2400. The length of the chip
antenna is less than 7.3mm
2: P1 is the MMCX connector for SMA antenna (connect via an MMCX-SMA RF cable)
and available only in ZcoRE3(20)-2400.
3: The height of the shield box on the top layer is less than 4.3mm from PCB board.
17
ZcoRE3-2400_User_Manual_V1.0
7.2
Bottom (top perspective)
Units: mil
Note:
1. J1 is the application and power supply interface (1.27mm pin header) which can be used for
board-to-board connection. Pay attention to the direction of socket.
2. There are two holes on board revered for modem fixing.
18
ZcoRE3-2400_User_Manual_V1.0
8.
Order Information
REnex provide series of ZcoRE3 OEM module that vary in RF output power and frequency as
well as standalone modems to cover a variety of application in different countries and regions.
Products
RF Power
Dimension
RF
Regulation
Intrinsic
Safety
Type
ZcoRE3-2400
ZcoRE3(20)-2400
0 dBm
18 dBm
46.5 x 26 x 10 mm
46.5 x 26 x 10 mm
Worldwide
worldwide
C1D1/ATEX(T4)
C1D1/ATEX(T4)
OEM
OEM
ZcoRE3-868*
ZcoRE3(20)-868*
0 dBm
18 dBm
46.5 x 26 x 10 mm
46.5 x 26 x 10 mm
Europe
Europe
ATEX(T4)
ATEX(T4)
OEM
OEM
ZcoRE3-915*
ZcoRE3(20)-915*
0 dBm
18 dBm
46.5 x 26 x 10 mm
46.5 x 26 x 10 mm
USA
USA
C1D1
C1D1
OEM
OEM
REmesh-2400*
REmesh-868*
REmesh-915*
18 dBm
18 dBm
18 dBm
TBD
TBD
Worldwide
Europe
USA
Standalone
Standalone
Standalone
TBD
*Available in 2007
Product Ordering Information for the ZcoRE3-2400 series:
Products
Part Number of REnex
ZcoRE3 -2400
R-001-0003-410
ZcoRE3(20) -2400
R-001-0003-400
Reference:
Ember: www.ember.com
Atmel: www.atmel.com
FCC: www.gcc.gov
Zigbee Alliance: www.zigbee.org
Disclaimer
Product and Company names and logos referenced may either be trademarks or registered
trademarks of their respective companies. We reserve the right to make modifications and/or
improvements without prior notification. All information is correct at time of issue. REnex does
not convey any license under its patent rights or assume any responsibility for the use of the
described product.
REnex Technology Limited
REnex Technology (ShangHai) Limited
Room 608, 6/F., Hong Leong Plaza,
Room C3-2, 3/F, No33
33 Lok Yip Road, Fanling, N.T., Hong Kong
FuHua Road, JiaDing, Shanghai, China
Tel: 852-2607-4088 Fax: 852-2669-0803
Tel: 86-021-59902255 Fax: 86-021-59902211
Email: Sales@renextechnology.com
Email: Sales@renextechnology.com
www.renextechnology.com
www.renextech.com
19

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