CIMCON Lighting CIM35X1 CIMX1PRO RF MODULE User Manual

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RF Module
Model: CIMX1PRO
Product Manual
CIMCON Lighting, Inc.
234 Littleton Road
Westford, MA 01886.
www.cimconlighting.com
Document No. RFM-PM-100-010-A
Confidential
Product Manual
RF Module
No part of this document may be reproduced or transmitted in any form or by any means, electronic
or mechanical, for any purpose, without the express written permission of CIMCON Lighting, Inc.
Information in this document is subject to change without notice. CIMCON Lighting, Inc. may have
patents or pending patent applications, trademarks, copyrights, or other intellectual property rights
covering subject matter in this document. The furnishing of this document does not give you license
to these patents, trademarks, copyrights, or other intellectual property except as expressly provided in
any written license agreement from CIMCON Lighting, Inc.
© 2013 CIMCON Lighting, Inc.
All rights reserved.
This information is confidential and proprietary to CSI and is to be used only for the purpose for which it is provided. Reproduction by any means,
electronic or mechanical, and distribution to third parties without express written permission from CSI is not permitted.
Product Manual
RF Module
Table of Contents
1.1.
1.2.
1.3.
1.4.
4.1.
4.2.
4.3.
4.4.
GETTING STARTED ......................................................................................... 1-1
OVERVIEW ................................................................................................................................... 1-1
KEY FEATURES .............................................................................................................................1-1
FCC APPROVALS ......................................................................................................................... 1-2
FCC LABELING REQUIREMENTS .................................................................................................. 1-2
SMT MODULE PIN-OUT.................................................................................. 2-1
THROUGH HOLE MODULE PIN-OUT ............................................................. 3-4
CONFIGURATION INFORMATION ................................................................. 4-1
ABSOLUTE MAXIMUM RATINGS OF RF MODULE........................................................................... 4-1
RECOMMENDED OPERATING CONDITIONS ................................................................................... 4-1
DC ELECTRICAL CHARACTERISTICS.............................................................................................. 4-1
POWER SETTINGS FOR REGULATORY COMPLIANCE ....................................................................... 4-2
BOARD LAYOUT ..............................................................................................5-1
SOLDERING TEMPERATURE PROFILE.......................................................... 6-1
6.1. LEADED PROCESS ........................................................................................................................ 6-1
6.2. LEAD FREE PROCESS ................................................................................................................... 6-1
MECHANICAL DIMENSIONS OF THE SMT MODULES .................................... 7-1
MECHANICAL DIMENSIONS FOR THROUGH HOLE MODULE ...................... 8-1
This information is confidential and proprietary to CSI and is to be used only for the purpose for which it is provided. Reproduction by any
means, electronic or mechanical, and distribution to third parties without express written permission from CSI is not permitted.
Product Manual
RF Module
1.1.
GETTING STARTED
Overview
This manual describes the key features, pin out, recommended operating conditions, working of
RF module and operating instructions to test the module for FCC.
CIMCON RF modules are designed to operate within the ZigBee protocol and support the unique
needs of low-cost, low-power wireless sensor networks. The modules require minimal power and
provide reliable delivery of data between remote devices. The modules operate within the ISM 2.4
GHz frequency band work on ZigBee protocol.
1.2.
Key Features
The key features of RF modules are as follows:
•
Operates from wide 2.1VDC to 3.6VDC
•
Maximum transmit current is 150mA (Typical at 3.0V)
•
Maximum Receive current is 38mA
•
Maximum transmit power is +22dBm
•
Receiver Sensitivity of -104dBm
•
Various serial interfaces like UART, SPI (master/ slave), and TWI
•
Six external ADC sources with 14-bit resolution
•
Urban range of ~85m
•
Line of sight range of ~1750m
1-1
This information is confidential and proprietary to CSI and is to be used only for the purpose for which it is provided. Reproduction by any means,
electronic or mechanical, and distribution to third parties without express written permission from CSI is not permitted.
Product Manual
RF Module
1.3.
FCC Approvals
The CIMCON SMT module and through hole module with the integrated wire whip Antenna
as well as the SMT module and through hole including the 2.1dBi external antenna complies
with FCC CFR Part 15 (USA). The devices meet the requirements for modular transmitter
approval.
External Antennas:
Dipole Antenna (P/N: A24-HASM-525; Maximum Antenna Gain: 2.1dBi)
Dipole Antenna (P/N: A24-HASM-450; Maximum Antenna Gain: 2.1dBi)
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.
2) This device must accept any interference received, including interference that may cause
undesired operation.
Changes and Modifications not expressly approved by CIMCON can void your
authority to operate this equipment under Federal Communications Commission’s
rules.
The following statement must be included as a CAUTION statement in manuals for OEM
products to alert users on FCC RF exposure compliance:
“WARNING: To satisfy FCC RF exposure requirements for mobile transmitting devices, a
separation distance of 20 CM or more should be maintained between the antenna of this device
and persons during operation. To ensure compliance, operations at closer
distances than this are not recommended.”
1.4.
FCC Labeling Requirements
When integrating the CIMCON’s SMT module or TH module into a product it must be ensured
that the FCC labeling requirements are met. This includes a clearly visible label on the outside of
the finished product specifying the CIMCON’s FCC identifier (FCC ID: S3Z-CIM35X1) as well as
the notice above. This exterior label can use wording such as “Contains Transmitter Module FCC
ID: S3Z-CIM35X1” or “Contains FCC ID: S3Z-CIM35X1” although any similar wording that
expresses the same meaning may be used.
1-2
This information is confidential and proprietary to CSI and is to be used only for the purpose for which it is provided. Reproduction by any means,
electronic or mechanical, and distribution to third parties without express written permission from CSI is not permitted.
Product Manual
RF Module
SMT MODULE PIN-OUT
SWCLK, JTCK
PB2, SC1MISO, SC1MOSI, SC1SCL, SC1RXD, TIM2C2
PB1, SC1MISO, SC1MOSI, SC1SDA, SC1TXD, TIM2C1
PA6, TIM1C3
PA5, ADC5, PTI_DATA, nBOOTMODE, TRACEDATA3
PA4, ADC4, PTI_EN, TRACEDATA2
PA3, SC2nSSEL, TRACECLK, TIM2C2
PA2, TIM2C4, SC2SCL, SC2SCLK
18
17
16
15
14
13
12
11
Following is the pin out of CIMCON RF module with description of each pin:
19
10
PC2, JTDO, SWO
20
PA1, TIM2C3, SC2SDA, SC2MISO
PC3, JTDI
21
PA0, TIM2C1, SC2MOSI
PC4, JTMS, SWDIO
PC1, ADC3, SWO, TRACEDATA0
22
23
PB4, TIM2C4, SC1nRTS, SC1nSSEL
PB3, TIM2C3, SC1nCTS, SC1SCLK
PC0, JRST, IRQD, TRACEDATA1
24
PA7, TIM1C4, REG_EN
PB7, ADC2, IRQC, TM1C2
25
PC7, OSC32A, OSC32_EXT
PB6, ADC1, IRQB, TM1C2
26
PC6, OSC32B, nTX_ACTIVE
27
nRESET
28
VDD_PADS
GND
PB5, ADC0, TIM2CLK, TIM1MSK
VDD_PADS
EMBER
RF
MODULE
GND
Descriptions:
PIN
SIGNAL
3.3V
nReset
PC6
OSC32B
nTX_ACTIVE
PC7
OSC32A
DIRECTION
Power
I/O
I/O
I/O
I/O
DESCRIPTION
Used to power the CIMCON RF module.
Active Low chip reset (Internal pull up)
Digital I/O
32.768 kHz crystal oscillator
Inverted TX_ACTIVE signal (see PC5)
Digital I/O
32.768 kHz crystal oscillator
2-1
This information is confidential and proprietary to CSI and is to be used only for the purpose for which it is provided. Reproduction by any means,
electronic or mechanical, and distribution to third parties without express written permission from CSI is not permitted.
Product Manual
RF Module
PIN
10
11
12
13
14
15
SIGNAL
OSC32_EXT
PA7
TIM1C4
TIM1C4
REG_EN
PB3
TIM2C3
TIM2C3
SC1nCTS
SC1SCLK
SC1SCLK
PB4
TIM2C4
TIM2C4
SC1nRTS
SC1nSSEL
PA0
TIM2C1
TIM2C1
SC2MOSI
SC2MOSI
PA1
TIM2C3
TIM2C3
SC2SDA
SC2MISO
SC2MISO
Ground
PA2
TIM2C4
TIM2C4
SC2SCL
SC2SCLK
SC2SCLK
PA3
SC2nSSEL
TRACECLK
TIM2C2
TIM2C2
PA4
ADC4
PTI_EN
TRACEDATA2
PA5
ADC5
PTI_DATA
nBOOTMODE
TRACEDATA3
PA6
TIM1C3
TIM1C3
DIRECTION
I/O
I/O
I/O
I/O
I/O
I/O
Power
I/O
I/O
I/O
I/O
Analog
I/O
Analog
I/O
DESCRIPTION
Digital 32.768 kHz clock input source
Digital I/O
Timer 1 Channel 4 output
Timer 1 Channel 4 input
External regulator open drain output
Digital I/O
Timer 2 channel 3 output
Timer 2 channel 3 input
UART CTS handshake of Serial Controller 1
SPI master clock of Serial Controller 1
SPI slave clock of Serial Controller 1
Digital I/O
Timer 2 channel 4 output
Timer 2 channel 4 input
UART RTS handshake of Serial Controller 1
SPI slave select of Serial Controller 1
Digital I/O
Timer 2 channel 1 output
Timer 2 channel 1 input
SPI master data out of Serial Controller 2
SPI slave data in of Serial Controller 2
Digital I/O
Timer 2 channel 3 output
Timer 2 channel 3 input
TWI data of Serial Controller 2
SPI slave data out of Serial Controller 2
SPI master data in of Serial Controller 2
Ground pin of RF module.
Digital I/O
Timer 2 channel 4 output
Timer 2 channel 4 input
TWI clock of Serial Controller 2
SPI master clock of Serial Controller 2
SPI slave clock of Serial Controller 2
Digital I/O
SPI slave select of Serial Controller 2
Synchronous CPU trace clock
Timer 2 channel 2 output
Timer 2 channel 2 input
Digital I/O
ADC Input 4
Frame signal of Packet Trace Interface (PTI)
Synchronous CPU trace data bit 2
Digital I/O
ADC Input 5
Data signal of Packet Trace Interface (PTI)
Embedded serial bootloader activation out of reset
Synchronous CPU trace data bit 3
Digital I/O
Timer 1 channel 3 output
Timer 1 channel 3 input
2-2
This information is confidential and proprietary to CSI and is to be used only for the purpose for which it is provided. Reproduction by any means,
electronic or mechanical, and distribution to third parties without express written permission from CSI is not permitted.
Product Manual
RF Module
PIN
16
17
18
19
20
21
22
23
24
25
26
27
28
SIGNAL
PB1
SC1MISO
SC1MOSI
SC1SDA
SC1TXD
TIM2C1
TIM2C1
PB2
SC1MISO
SC1MOSI
SC1SCL
SC1RXD
TIM2C2
TIM2C2
SWCLK
JTCK
Ground
PC2
JTDO
SWO
DIRECTION
I/O
I/O
I/O
I/O
I/O
Power
I/O
PC3
JTDI
PC4
JTMS
SWDIO
PC1
ADC3
SWO
I/O
I/O
I/O
I/O
Analog
TRACEDATA0
PC0
JRST
IRQD
TRACEDATA1
PB7
ADC2
IRQC
TIM1C2
TIM1C2
PB6
ADC1
IRQB
TIM1C1
TIM1C1
PB5
ADC0
TIM2CLK
TIM1MSK
3.3V
I/O
I/O
Analog
I/O
Analog
I/O
Analog
Power
DESCRIPTION
Digital I/O
SPI slave data out of Serial Controller 1
SPI master data out of Serial Controller 1
TWI data of Serial Controller 1
UART transmit data of Serial Controller 1
Timer 2 channel 1 output
Timer 2 channel 1 input
Digital I/O
SPI master data in of Serial Controller 1
SPI slave data in of Serial Controller 1
TWI clock of Serial Controller 1
UART receive data of Serial Controller 1
Timer 2 channel 2 output
Timer 2 channel 2 input
Serial Wire clock input/output with debugger
JTAG clock input from debugger
Ground pin of RF module.
Digital I/O
JTAG data out to debugger
Serial Wire Output asynchronous trace output to
debugger
Digital I/O
JTAG data in from debugger
Digital I/O
JTAG mode select from debugger
Serial Wire bidirectional data to/from debugger
Digital I/O
ADC Input 3
Serial Wire Output asynchronous trace output to
debugger
Synchronous CPU trace data bit 0
Digital I/O
JTAG reset input from debugger
Default external interrupt source D
Synchronous CPU trace data bit 1
Digital I/O
ADC Input 2
Default external interrupt source C
Timer 1 channel 2 output
Timer 1 channel 2 input
Digital I/O
ADC Input 1
External interrupt source B
Timer 1 channel 1 output
Timer 1 channel 1 input
Digital I/O
ADC Input 0
Timer 2 external clock input
Timer 1 external clock mask input
Used to power the CIMCON RF module.
2-3
This information is confidential and proprietary to CSI and is to be used only for the purpose for which it is provided. Reproduction by any means,
electronic or mechanical, and distribution to third parties without express written permission from CSI is not permitted.
Product Manual
RF Module
THROUGH HOLE MODULE PINOUT
Following is the pin out of CIMCON TH Si Module with description of each pin:
Descriptions:
PIN
SIGNAL
3.3V
PB1
SC1MISO
SC1MOSI
SC1SDA
SC1TXD
TIM2C1
TIM2C1
PB2
SC1MISO
SC1MOSI
SC1SCL
SC1RXD
TIM2C2
TIM2C2
PB5
ADC0
TIM2CLK
TIM1MSK
PB7
ADC2
IRQC
TIM1C2
DIRECTION
Power
I/O
I/O
I/O
I/O
I/O
Analog
I/O
Analog
DESCRIPTION
Used to power the CIMCON RF module.
Digital I/O
SPI slave data out of Serial Controller 1
SPI master data out of Serial Controller 1
TWI data of Serial Controller 1
UART transmit data of Serial Controller 1
Timer 2 channel 1 output
Timer 2 channel 1 input
Digital I/O
SPI master data in of Serial Controller 1
SPI slave data in of Serial Controller 1
TWI clock of Serial Controller 1
UART receive data of Serial Controller 1
Timer 2 channel 2 output
Timer 2 channel 2 input
Digital I/O
ADC Input 0
Timer 2 external clock input
Timer 1 external clock mask input
Digital I/O
ADC Input 2
Default external interrupt source C
Timer 1 channel 2 output
3-4
This information is confidential and proprietary to CSI and is to be used only for the purpose for which it is provided. Reproduction by any means,
electronic or mechanical, and distribution to third parties without express written permission from CSI is not permitted.
Product Manual
RF Module
PIN
10
11
12
13
14
15
16
17
18
19
20
SIGNAL
TIM1C2
PC4
JTMS
SWDIO
PC3
JTDI
PC0
JRST
IRQD
TRACEDATA1
PC1
ADC3
SWO
DIRECTION
I/O
I/O
I/O
I/O
I/O
Analog
TRACEDATA0
Ground
PC2
JTDO
SWO
Power
I/O
PB4
TIM2C4
TIM2C4
SC1nRTS
SC1nSSEL
SWCLK
JTCK
PA5
ADC5
PTI_DATA
nBOOTMODE
TRACEDATA3
PC6
OSC32B
nTX_ACTIVE
PB3
TIM2C3
TIM2C3
SC1nCTS
SC1SCLK
SC1SCLK
PA4
ADC4
PTI_EN
TRACEDATA2
nReset
NC
NC
I/O
I/O
I/O
Analog
I/O
I/O
I/O
I/O
Analog
N/A
N/A
DESCRIPTION
Timer 1 channel 2 input
Digital I/O
JTAG mode select from debugger
Serial Wire bidirectional data to/from debugger
Digital I/O
JTAG data in from debugger
Digital I/O
JTAG reset input from debugger
Default external interrupt source D
Synchronous CPU trace data bit 1
Digital I/O
ADC Input 3
Serial Wire Output asynchronous trace output to
debugger
Synchronous CPU trace data bit 0
Ground pin of RF module.
Digital I/O
JTAG data out to debugger
Serial Wire Output asynchronous trace output to
debugger
Digital I/O
Timer 2 channel 4 output
Timer 2 channel 4 input
UART RTS handshake of Serial Controller 1
SPI slave select of Serial Controller 1
Serial Wire clock input/output with debugger
JTAG clock input from debugger
Digital I/O
ADC Input 5
Data signal of Packet Trace Interface (PTI)
Embedded serial bootloader activation out of reset
Synchronous CPU trace data bit 3
Digital I/O
32.768 kHz crystal oscillator
Inverted TX_ACTIVE signal (see PC5)
Digital I/O
Timer 2 channel 3 output
Timer 2 channel 3 input
UART CTS handshake of Serial Controller 1
SPI master clock of Serial Controller 1
SPI slave clock of Serial Controller 1
Digital I/O
ADC Input 4
Frame signal of Packet Trace Interface (PTI)
Synchronous CPU trace data bit 2
Active Low chip reset (Internal pull up)
N/A
N/A
3-5
This information is confidential and proprietary to CSI and is to be used only for the purpose for which it is provided. Reproduction by any means,
electronic or mechanical, and distribution to third parties without express written permission from CSI is not permitted.
Product Manual
RF Module
CONFIGURATION INFORMATION
4.1.
Absolute Maximum Ratings of RF Module
The following table provides maximum ratings of RF Module:
Sr. No.
Parameter
Symbol
Absolute
Maximum ratings
-0.3 to +3.6
-0.3 to Vcc+0.3
Unit
Supply Voltage
Voltage on any GPIO
including nReset and JCLK
Vcc
VIN
Voltage on any GPIO [PA4, PA5, PB5,
PB6, PB7, PC1] when used as input to
ADC
Storage Temperature Range
Operating Temperature Range
ESD on any pin (HBM)
ESD on RF port (CDM)
Moisture Sensitivity Level (MSL)
Reflow Temperature
VIN
-0.3 to +2.0
VDC
Tstg
Top
Vhbm
Vcdm
-40 to +105
-40 to +85
+/-2
+/-225
MSL3
Refer in next pages
‘C
‘C
KV
4.2.
Recommended Operating Conditions
Sr. No
Parameter
Symbol
Supply Voltage
Operating frequency
Operating Temperature
Vcc
Fin
Top
4.3.
Treflow
VDC
VDC
Recommended Operating
Conditions
2.1 to 3.6
2405 to 24
-40 to +85’C
Unit
VDC
MHz
‘C
DC Electrical Characteristics
Parameter
Voltage supply
Low Schmitt switching
threshold
Test Conditions
Input current for logic 0
VSWIL
Schmitt input
threshold going from
high to low
VSWIH
Schmitt input
threshold going from
low to high
IIL
Input current for logic 1
IIH
Input pull-up resistor
value
RIPU
High Schmitt switching
threshold
Min.
2.1
0.42 x
VDD_PADS
Typical
0.62 x
VDD_PADS
24
29
Max
3.6
0.50 x
VDD_PADS
Unit
VDC
0.80 x
VDD_PADS
-0.5
uA
+0.5
uA
34
kΩ
4-1
This information is confidential and proprietary to CSI and is to be used only for the purpose for which it is provided. Reproduction by any
means, electronic or mechanical, and distribution to third parties without express written permission from CSI is not permitted.
Product Manual
RF Module
Parameter
Input pull-down resistor
value
Test Conditions
RIPD
Min.
24
Output voltage for logic
VOL
(IOL = 4 mA for
standard pads, 8 mA
for high current
pads)
VOH
(IOH = 4 mA for
standard pads, 8 mA
for high current
pads)
IOHS
Output voltage for logic
Output source current
(standard current pad)
Typical
29
Max
34
Unit
kΩ
0.18 x
VDD_PADS
0.82 x
VDD_PADS
VDD_PADS
mA
Output sink current
(standard current pad)
IOLS
mA
Output source current
high current pad: PA6,
PA7, PB6, PB7, PC0
IOHH
mA
Output sink current
high current pad: PA6,
PA7, PB6, PB7, PC0
IOLH
mA
Total output current (for
I/O Pads)
IOH + IOL
40
mA
4.4.
Power Settings for Regulatory Compliance
Because of the high gain of the frontend module output power of up to 24dBm can be achieved
When the antenna gain is included then the output power of the EM357 transceivers needs to be
reduced for regulatory compliance. The following tables list the maximum permitted power
setting for the different antenna types listed. This is the power out of the EM357 chip, and the
power delivered to the antenna will be higher by the gain of the PA.
settxpower P (set the channel power)
UFL Antenna Unit
•
•
•
Channel 11: P = -5 [dBm]
Channel 18: P = -5 [dBm]
Channel 25: P = -7 [dBm]
Fixed Antenna Unit
•
•
•
Channel 11: P = -3 [dBm]
Channel 18: P = -3 [dBm]
Channel 25: P = -3 [dBm]
4-2
This information is confidential and proprietary to CSI and is to be used only for the purpose for which it is provided. Reproduction by any
means, electronic or mechanical, and distribution to third parties without express written permission from CSI is not permitted.
Product Manual
RF Module
BOARD LAYOUT
CIMCON RF modules do not have any specific sensitivity to nearby processors, crystals or other
PCB components. Other than mechanical considerations, no special PCB placement is required for
integrating CIMCON RF radios. In general, Power and GND traces should be thicker than signal
traces and be able to comfortably support the maximum currents.
The radios are also designed to be self-sufficient and work with wire whip and external antennas
without the need for additional ground planes on the host PCB. However, considerations should be
taken on the choice of antenna and antenna location. Metal objects that are near an antenna cause
reflections and may reduce the ability for an antenna to efficiently radiate. Using an integral
antenna (like a wire whip antenna) in an enclosed metal box will greatly reduce the range of a radio.
For this type of application an external antenna would be a better choice. External antennas should
be positioned away from metal objects as much as possible. Metal objects next to the antenna or
between transmitting and receiving antennas can often block or reduce the transmission distance.
Some objects that are often overlooked are metal poles, metal studs or beams in structures, concrete
(it is usually reinforced with metal rods), metal enclosures, vehicles, elevators, ventilation ducts,
refrigerators and microwave ovens.
The Wire Whip Antenna should be straight and perpendicular to the ground plane and/or chassis.
It should reside above or away from any metal objects like batteries, tall electrolytic capacitors or
metal enclosures. If the antenna is bent to fit into a tight space, it should be bent so that as much of
the antenna as possible is away from metal. Caution should be used when bending the antenna,
since this will weaken the solder joint where the antenna connects to the module. Antenna elements
radiate perpendicular to the direction they point. Thus a vertical antenna emits across the horizon
5-1
This information is confidential and proprietary to CSI and is to be used only for the purpose for which it is provided. Reproduction by any means,
electronic or mechanical, and distribution to third parties without express written permission from CSI is not permitted.
Product Manual
RF Module
SOLDERING TEMPERATURE
PROFILE
6.1.
Leaded Process
6.2.
Lead Free Process
6-1
This information is confidential and proprietary to CSI and is to be used only for the purpose for which it is provided. Reproduction by any means,
electronic or mechanical, and distribution to third parties without express written permission from CSI is not permitted.
Product Manual
RF Module
MECHANICAL DIMENSIONS OF
THE SMT MODULES
7-1
This information is confidential and proprietary to CSI and is to be used only for the purpose for which it is provided. Reproduction by any means,
electronic or mechanical, and distribution to third parties without express written permission from CSI is not permitted.
Product Manual
RF Module
MECHANICAL DIMENSIONS FOR
THROUGH HOLE MODULE
8-1
This information is confidential and proprietary to CSI and is to be used only for the purpose for which it is provided. Reproduction by any means,
electronic or mechanical, and distribution to third parties without express written permission from CSI is not permitted.

---

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