ETC2 AWAC24U Hardware design guide for artaflex wireless module Datasheet

HARDWARE DESIGN GUIDE
FOR
ARTAFLEX WIRELESS MODULES
For Models:
AWP24S
AWS24S
AWP24U
AWAC24U
AWA24S
AW24MCHL-SM
AW24MCHL-H2
AW24MUFL-SM
Document:
AN-121-0001
Written By:
Kashif Ahmed
Date:
Sept 18,2009
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
File: AN-121-0001-R2
Page 1 of 23
http://www.artaflexmodules.com
Contents
1.0 Introduction ....................................................................................................................... 3
2.0 Main Features ................................................................................................................... 3
3.0 Module Types.................................................................................................................... 4
4.0 Mechanical Dimensions..................................................................................................... 5
5.0 Design Guidelines
5.1 PCB Design ................................................................................................................ 5
5.2 Module Placement Strategy...................................................................................... 15
5.3 External Antenna Applications.................................................................................. 20
6.0 SMT Assembly Guidelines for AW24MCHL-SM .............................................................. 21
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
File: AN-121-0001-R2
Page 2 of 23
http://www.artaflexmodules.com
1. Introduction
This document provides information on designing Artaflex wireless modules into
products that require 2.4 GHz ISM band wireless data transmission. A brief description
is provided for all the modules to aid in assisting the designer on selecting the right
model for the design. For more detailed information, please refer to engineering
datasheets or contact Artaflex technical sales/support.
To ensure optimal RF performance, suggested design guidelines are provided for
placement on PCB. Information on mating connectors on host board, solder reflow
temperature profiles for assembly and reworking information are also provided.
manufacturing are also provided.
Artaflex wireless modules operate in the 2.4 GHZ ISM band. The Falcon series
modules are based on Cypress Semiconductor CyFi chipset and offer seamless
compliance to the CyFi protocol. The modules are low power with transmitting data
rates up to 1Mb/s and operating range from 50 meters for embedded antenna devices
to 1 kilometer for devices equipped with a power amplifier. All modules are
FCC/EU/ETS/Industry Canada agency certified.
2. Main Features
•
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•
•
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Low operating current
Transmit power from 4dBm up to +21 dBm
Receive sensitivity up to –97 dBm
Sleep current <1-10 µA
Operating range from 10m to 1km or more depending on model and conditions
DSSS data rates up to 250 kbps, GFSK data rate of 1 Mbps
Auto Transaction Sequencer (ATS) - no micro controller intervention
Framing, Length, CRC16, and Auto ACK
Fast startup and fast channel changes
Separate 16-byte transmit and receive FIFOs
AutoRate™ - dynamic data rate reception
Receive Signal Strength Indication (RSSI)
4-MHz SPI microcontroller interface
No proprietary software required
Serial Peripheral Interface (SPI) control while in sleep mode
Operating voltage from 2.4 to 3.6 volts
Operating temperature from 0 to 70°C
Size: as small as 15mm(L) x 13.5(W) x 1.8mm(H)
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
File: AN-121-0001-R2
Page 3 of 23
http://www.artaflexmodules.com
•
•
Weight: 5 - 27 grams
FCC Modular Approval Grant to meet FCC Part 15, EN 300 328-1, EN 301 489-1,
EN 301 489-7 and Industry Canada RSS-210 standards
3. Module Types
There are many packaging options available.
The following is a list of available modules with a brief description.
1) AWP24S has an integrated PCB print antenna. It is a first generation module.
2) AWS24S has a co-axial U.FL connector for attaching an external antenna. It is a
first generation module.
3) AWP24U is a USB dongle version allowing it to plug into computers.
4) AWA24S has a power amplifier for longest operating range
5) AWAC24U is a USB dongle with a power amplifier that offers longest range and
a computer interface
6) AW24MCHL-H2 has a chip antenna and header connector. It is a second
generation module that offers high performance in the smallest available
package.
7) AW24MCHL-HR is the same as AW24MCHL-H2 but has a right angle connector
allowing the module to be mounted perpendicular to host PCB.
8) AW24MCHL-SM is a surface mount version that has the lowest profile since
there is no header connector.
9) AW24MUFL has a header connector and has a U.FL connector for connecting
an external antenna.
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
File: AN-121-0001-R2
Page 4 of 23
http://www.artaflexmodules.com
4. Mechanical Dimensions
a. AWP24S - Integrated PCB Antenna Module
Size:
38.1 mm x 25.4 mm (1.5” x 1.0”)
AWP24S Connector Pin Information
Pin
Name
Type
Default
Description
1
GND
Power
GND
Ground
2
VCC
Power
VCC
Main Supply 2.4 to 3.6 volts
3
IRQ
I/O
-
4
RST
Input
Input
Module Reset. Internal on Chip 10k-ohm pull-down resistor. Active HIGH
5
MOSI
I/O
Input
SPI data input, or SDAT
Interrupt output (configurable active high or low), or GPIO
6
SS
Input
Pull Up
7
SCK
Input
Input
SPI Clock
8
MISO
I/O
Hi Z
SPI data output pin or GPIO in 3-pin SPI mode.
9
GND
Power
GND
Ground
10
PACTL
I/O
NC
No Connect – Leave Open Circuit[8]
11
TXPA
I/O
NC
No Connect – Leave Open Circuit[8]
12
RXPA
I/O
NC
No Connect – Leave Open Circuit[8]
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
SPI Interface enable, Active LOW
File: AN-121-0001-R2
Page 5 of 23
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b. AWS24S - Co-axial External Antenna Module
Size:
38.1 mm x 25.4 mm (1.5” x 1.0”)
AWS24S Connector Pin Information
Pin
Name
Type
Default
1
GND
Power
GND
Ground
2
VCC
Power
VCC
Main Supply 2.4 to 3.6 volts
3
IRQ
I/O
-
4
RST
Input
Input
Module Reset. Internal on Chip 10k-ohm pull-down resistor. Active HIGH
5
MOSI
I/O
Input
SPI data input, or SDAT
6
SS
Input
Pull Up
7
SCK
Input
Input
8
MISO
I/O
Hi Z
SPI data output pin or GPIO in 3-pin SPI mode.
9
GND
Power
GND
Ground
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
Description
Interrupt output (configurable active high or low), or GPIO
SPI Interface enable, Active LOW
SPI Clock
File: AN-121-0001-R2
Page 6 of 23
http://www.artaflexmodules.com
10
PACTL
I/O
NC
No Connect – Leave Open Circuit[8]
11
TXPA
I/O
NC
No Connect – Leave Open Circuit[8]
12
RXPA
I/O
NC
No Connect – Leave Open Circuit[8]
c. AWA24S - Power Amplifier Module
Size:
25.4 mm x 20.32 mm
AWA24S Connector Pin Information
Pin
Name
Type
Default
1
GND
Power
GND
Ground
2
VCC
Power
VCC
Main Supply 2.4 to 3.6 volts
3
IRQ
I/O
-
4
RST
Input
Input
Module Reset. Internal on Chip 10k-ohm pull-down resistor. Active HIGH
5
MOSI
I/O
Input
SPI data input, or SDAT
6
SS
Input
Pull Up
7
SCK
Input
Input
SPI Clock
8
MISO
I/O
Hi Z
SPI data output pin or GPIO in 3-pin SPI mode.
9
GND
Power
GND
Ground
10
*PACTL
Power
VCC
Power Control – max power at 3.3V - Shut down “0V”
11
TXPA
Input
Input
Active High to set Module into a Transmit mode (RXPA = Low)
12
RXPA
Input
Input
Active High to set the Module into a Receive mode (TXPA = Low)
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
Description
Interrupt output (configurable active high or low), or GPIO
SPI Interface enable, Active LOW
File: AN-121-0001-R2
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d. AWP24U - Wireless USB Dongle
Size:
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
45.7 mm x 20.3 mm
File: AN-121-0001-R2
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e. AWAC24U – Wireless USB Dongle with PA
No Drawing Available. Mechanical Specifications Pending Release.
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
File: AN-121-0001-R2
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http://www.artaflexmodules.com
f.
AW24MCHL-H2 - Micro Module with Chip Antenna
Size:
16 mm x 13.5 mm
g. AW24MCHL-HR - Micro Module with Chip Antenna and RA Connector
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
File: AN-121-0001-R2
Page 10 of 23
http://www.artaflexmodules.com
AW24MCHL-H2 / HR Connector Pin Information
Header
Name Type
Pin No
Default
Description
1
GND
Power
GND
Ground
2
VCC
Power
VCC
Main Supply 2.4 to 3.6 volts
3
IRQ
I/O
-
4
RST
Input
Input
Module Reset. Internal on Chip 10k-ohm pulldown resistor. Active HIGH
5
MOSI
I/O
Input
SPI data input, or SDAT
6
SS
Input
Pull Up
7
SCK
Input
Input
SPI Clock
8
MISO
I/O
Hi Z
SPI data output pin or GPIO in 3-pin SPI mode.
9
GND
Power
GND
Ground
10
L/D
Power
GND
Connect to GND.
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
Interrupt output (configurable active high or
low), or GPIO
SPI Interface enable, Active LOW
File: AN-121-0001-R2
Page 11 of 23
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11
TXPA
I/O
O
Can be used as GPIO
12
RXPA
I/O
O
Can be used as GPIO
h. AW24MUFL-H2 - Micro Module with UFL connector
Size:
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
16 mm x 13.5 mm
File: AN-121-0001-R2
Page 12 of 23
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AW24MUFL-H2 Connector Pin Information
Header
Name Type
Pin No
Default
Description
1
GND
Power
GND
Ground
2
VCC
Power
VCC
Main Supply 2.4 to 3.6 volts
3
IRQ
I/O
-
4
RST
Input
Input
Module Reset. Internal on Chip 10k-ohm pulldown resistor. Active HIGH
5
MOSI
I/O
Input
SPI data input, or SDAT
Interrupt output (configurable active high or
low), or GPIO
6
SS
Input
Pull Up
7
SCK
Input
Input
SPI Interface enable, Active LOW
SPI Clock
8
MISO
I/O
Hi Z
SPI data output pin or GPIO in 3-pin SPI mode.
9
GND
Power
GND
Ground
10
L/D
Power
GND
Connect to GND.
11
TXPA
I/O
O
Can be used as GPIO
12
RXPA
I/O
O
Can be used as GPIO
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
File: AN-121-0001-R2
Page 13 of 23
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i. AW24MCHL-SM - Micro Module with Surface Mount Connections
Size:
15 mm x 13.5 mm
AW24MCHL-SM Connector Pin out Information
SMT
Pin No
Name Type
Default
Description
12
GND
Power
GND
Ground
11
VCC
Power
VCC
Main Supply 2.4 to 3.6 volts
5
IRQ
I/O
-
9
RST
Input
Input
Module Reset. Internal on Chip 10k-ohm pulldown resistor. Active HIGH
3
MOSI
I/O
Input
SPI data input, or SDAT
4
SS
Input
Pull Up
2
SCK
Input
Input
Interrupt output (configurable active high or
low), or GPIO
SPI Interface enable, Active LOW
SPI Clock
6
MISO
I/O
Hi Z
SPI data output pin or GPIO in 3-pin SPI mode.
13
GND
Power
GND
Ground
10
L/D
Power
GND
7
XOUT
I/O
O
8
PACTL
I/O
O
1,14,15,16
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
Connect to GND.
Buffered 0.75, 1.5, 3, 6, or 12 MHz clock, PACTL, or
GPIO.
Tri-states in sleep mode (configure as GPIO drive LOW).
Control signal for external PA, T/R switch, or
GPIO.
No Connect – Leave Open Circuit[8]
File: AN-121-0001-R2
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http://www.artaflexmodules.com
5.0
Design Guidelines
5.1 PCB Design
All Falcon wireless modules except the surface mount version require a mating
receptacle connector on the host PCB. The following are recommended
connectors manufactured by FCI that will mate to the modules. Equivalents
from other manufacturers can also be used.
These are available as surface mount versions or through-hole:
FCI part number 55508-112TRLF (12 pin dual row 2mm vertical SM receptacle)
http://portal.fciconnect.com/portal/page/portal/FcicntPublic/ComergentConnect?appname=catDi
splayStyle$domProductQueryName=55508-112TRLF*$OP=search
FCI part number 63453-112LF (12 pin dual row 2mm vertical through hole
receptacle)
http://portal.fciconnect.com/portal/page/portal/FcicntPublic/ComergentConnect?appname=catDi
splayStyle$domProductQueryName=63453-112lf*$OP=search
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
File: AN-121-0001-R2
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For Artaflex wireless module AW24MCHL-SM, there is no mating connector required
since it is mounted directly onto the host PCB. See below for recommended land
pattern.
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
File: AN-121-0001-R2
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5.2 Module Placement Strategy
Artaflex wireless modules are RF devices that require proper placement on
PCB to ensure optimal performance. The antenna on the PCB has an omnidirectional radiation pattern. To maximize antenna efficiency, an adequate
grounding plane must be provided under the module. However, the areas
underneath and surrounding the antenna area must be free of copper. The
position of the module on the host board and overall design of the product
enclosure contribute to antenna performance. Poor design effects radiation
patterns and can result in reflection, diffraction, and/or scattering of the
transmitted signal thus limiting the range. Measured radiation patterns of these
modules are available from Artaflex and can be used to benchmark design
performance. In summary:
i. Never place the ground plane or route copper traces directly underneath the
antenna portion of the module.
ii. Never place the antenna close to metallic objects.
iii. Keep wiring, components and objects away from antenna.
iv. Do not place the antenna in a metallic or metalized plastic enclosure.
v. Enclosure walls should be 1cm or more away from the antenna in all
directions.
vi. If possible, mount antenna overhanging the edge of the host board. Add an
uninterrupted ground plane on host board, directly underneath the module, up
to the PCB edge. Adding a ground plane will allow traces to be run on the on
the bottom side of the host board if required. See diagram following.
vii. If antenna cannot be mounted in overhanging position, then provisions must
be made to keep area clear of copper as recommended in diagram.
viii. For designs that require external antenna and U.FL connector, use
recommended antenna. The rules for placement on edge are not required.
However, a ground plane is necessary underneath the module.
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
File: AN-121-0001-R2
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If required, please contact Artaflex for assistance for PCB layout and RF design.
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
File: AN-121-0001-R2
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Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
File: AN-121-0001-R2
Page 19 of 23
http://www.artaflexmodules.com
5.3 External Antenna Applications
Artaflex recommends using Centurion antenna WRR2400-IP04-B for modules
that require an external antenna. This antenna has been qualified and approved
for use by regulatory agencies in the US, Canada and European Union under the
Modular Approval certification. It is compatible with the RF impedance and
frequency range of all Artaflex models that have an external antenna with U.FL
connector. The use of any antenna that does not meet the same parameters as
the antenna recommended voids the Modular Approval grant.
Follow the recommended rules for optimal performance:
i.
ii.
iii.
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
Place antenna vertically for longest range and best communication
Allow 75-130 mm clearance from antenna to any metallic objects
File: AN-121-0001-R2
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6. SMT Assembly Guidelines for AW24MCHL-SM
j. Solder Reflow Profiles
Package Reflow Parameters
J-STD-020
Convention 220 +/- Reflow Profile
Average ramp-up rate (183ْ C to peak)
Preheat temperature 125ْ C (+/- 25ْ C)
Temperature maintained above 183ْْ C
Time within 5ْْ C of actual peak temperature
Peak temperature range
Ramp-down rate
Time 25ْ C to peak temperature
3ْْ C/second max
120 seconds max
60~150 seconds
10~20 seconds
220 +5/-0ْ C
6ْ C/second max
6 minutes max
Package Reflow Parameters
J-STD-020
Convention 235 +5/-0ْ C Reflow Profile
Average ramp-up rate (183ْ C to peak)
Preheat temperature 125ْ C (+/- 25ْ C)
Temperature maintained above 183ْْ C
Time within 5ْْ C of actual peak temperature
Peak temperature range
Ramp-down rate
Time 25ْ C to peak temperature
3ْْ C/second max
120 seconds max
60 ~150 seconds
10 ~ 20 seconds
235 +5/-0ْ C
6ْ C/second max
6 minutes max
Package Reflow Parameters
NEMI Recommended
Convection or IR 260ْ C Reflow Profile
Ramp-up rate (217ْ C to peak)
Preheat temperature 125ْ C (+/- 25ْ C)
Time 50ْْ C to peak temperature
Temperature maintained above 217ْ C
Time within 5ْ C of actual peak temperature
Peak temperature range
Ramp-down rate
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
3ْْ C/second max
60 to 120 seconds max
3.5 minutes, 6 minutes max
60 to 150 seconds
10 ~ 20 seconds
260ْ C -5/+0ْ C
6ْ C/second max
File: AN-121-0001-R2
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k. Pb-Free Soldering Paste
Use of “No Clean” soldering paste is strongly recommended, as it does not
require cleaning after the soldering process.
Note: The quality of the solder joints on the castellations (‘half vias’) where they
contact the host board should meet the appropriate IPC specification. See IPCA-610-D Acceptability of Electronic Assemblies, section 8.2.4 Castellated
Terminations.
l. Cleaning
In general, cleaning the populated modules is strongly discouraged. Residuals
under the module cannot be easily removed with any cleaning process.
Cleaning with water can lead to capillary effects where water is absorbed into
the gap between the host board and the module. The combination of soldering
flux residuals and encapsulated water could lead to short circuits between
neighboring pads. Water could also damage any stickers or labels.
Cleaning with alcohol or a similar organic solvent will likely flood soldering flux
residuals into the two housings, which is not accessible for post-washing
inspection. The solvent could also damage any stickers or labels.
Ultrasonic cleaning could damage the module permanently.
The best approach is to consider using a “no clean” soldering paste and
eliminate the post-soldering cleaning step.
m. Optical Inspection
After soldering the Module to the host board, consider optical inspection to
check the following:
Proper alignment and centering of the module over the pads.
Proper solder joints on all pads.
Excessive solder or contacts to neighboring pads, or vias.
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
File: AN-121-0001-R2
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n. Repeating Reflow Soldering
Only a single reflow soldering process is encouraged for host boards.
o. Wave Soldering
If a wave soldering process is required on the host boards due to the presence
of leaded components, only a single wave soldering process should be used.
p. Hand Soldering
Hand soldering is possible. Use a soldering iron temperature setting equivalent
to 350°C, follow IPC recommendations/reference document IPC-7711.
q. Rework
The SMT Module can be unsoldered from the host board. Use of a hot air rework tool and hot plate for pre-heating from underneath is recommended. Avoid
overheating.
Warning!
Never attempt a rework on the module itself, e.g. replacing individual
components. Such actions will void warranty coverage.
The information contained herein is subject to change without notice and may be found to contain errors of omission or changes in parameters. For
feedback or technical support regarding Artaflex CyFi Radio Modem products please contact Artaflex at www.artaflex.com.
Artaflex Inc. assumes no responsibility for the use of any circuitry other than circuitry embodied in an Artaflex product.
Nor does it convey or imply any license under patent or other rights. Artaflex products are not warranted nor intended to be used for medical, life support,
life saving, critical control or safety applications, unless pursuant to an express written agreement with Artaflex Inc. Furthermore, Artaflex does not
authorize its products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in
significant injury to the user. The inclusion of Artaflex products in life-support systems application implies that the manufacturer assumes all risk of such
use and in doing so indemnifies Artaflex Inc. against all charges.
CyFi and AutoRate are trademarks™ of Cypress Semiconductor.
All products and company names mentioned in this document are the trademarks of their respective holders.
Artaflex Inc.
215 Konrad Crescent
Markham, Ontario, Canada
L3R8T9
(905) 479-0148
File: AN-121-0001-R2
Page 23 of 23
http://www.artaflexmodules.com