SILABS AMW106R Embedded wi-fi networking solution Datasheet

AMW006/AMW106 • Embedded Wi-Fi Networking Solutions
AMW006 / AMW106
Data Sheet
ADS-MWx06-106R • Preliminary Data Sheet
©2014-2015 ACKme Networks. http://ack.me
September 1, 2015
AMWx06 • Embedded Wi-Fi Networking Solutions
Disclaimer
While the information provided in this document is believed to be accurate, it is under development and
ACKme Networks reserves the right to make changes
without further notice to the product described herein to
improve reliability, function, or design, and makes no
guarantee or warranty concerning the accuracy of said
information, nor shall it be responsible for any loss or
damage of whatever nature resulting from the use of, or
reliance upon, such information. ACKme Networks
makes no warranties of any kind, whether express, implied or arising by custom or course of trade or performance, and specifically disclaims the implied warranties
of title, non-infringement, merchantability, or fitness for
a particular purpose.
No part of this document may be copied, reproduced,
stored in a retrieval system, or transmitted, in any form
or by any means, electronic, mechanical, photographic,
or otherwise, or used as the basis for manufacture or sale
of any items without the prior written consent of ACKme
Networks.
Trademarks
ACKme Networks and the ACKme Networks logo are
trademarks of ACKme Networks. Other trademarks in
this document belong to their respective owners.
Contact
http://ack.me/contact
About this Data Sheet
This document provides information on the
AMWx06 802.11b/g/n Wi-Fi networking module from
ACKme Networks. Specifications for the module I/O and
peripherals are taken from MCU datasheet. Specifications for the WLAN subsystem were compiled from
measured data unless otherwise noted.
Organization
This data sheet is organized into the following sections:
 Features & Applications
 General Description, Section 1
 Block Diagram, Section 2
 Electrical Specifications, Section 3
 WLAN RF Specifications, Section 4
 Pinout and Signal Descriptions, Section 5
 Design Guidelines, Section 6
 Regulatory Certification, Section 7
 Packaging, Handling & Storage, RoHS, Section 8
 Ordering Information, Section 9
 Revision History & Glossary, Section 10
 References, Section 11
Copyright © 2014-2015 ACKme Networks.
All rights reserved.
Document Number: ADS-Mx006
Release Date: September 1, 2015
ADS-MWx06-106R • Preliminary Data Sheet
©2014-2015 ACKme Networks. http://ack.me
September 1, 2015
Page | i
AMW006 / AMW106 Data Sheet
Embedded Wi-Fi Networking Solution
Features
 Self-contained ultra-low power Wi-Fi module with
microcontroller and secure TCP network stack.
 Integrated SPI-serial flash for software upgrades
and user accessible read/write file system
Wi-Fi
 Broadcom single band 2.4GHz IEEE 802.11b/g/n 1x1
Wi-Fi transceiver
 Includes support for all Wi-Fi security modes including Open, WEP, WPA, and WPA2-PSK
Microprocessor
 ARM Cortex® M4 based microprocessor
 AMW006: operates up to 84MHz core frequency
 AMW106: operates up to 100MHz core frequency
RAM
 AMW006: 96 KB
 AMW106: 128 KB
Interfaces*
 UART: 2 x 4-wire up to 10.5Mbit/s
 SPI : SPI-Master (42Mbit/s), SPI-Slave (21Mbit/s)
 GPIO: Up to 21 GPIOs (overlaid with peripherals)
 A/D converter: 9 channel input, 12-bit resolution,
2.4MSPS sampling in single-shot or scan mode
 PWM: Up to 14 PWM outputs
 Wake-up: Wake pin for ultra-low power operation
 Two external antennas for diversity and improved
range
*
Some interfaces share module pins
ADS-MWx06-106R • Preliminary Data Sheet
©2014-2015 ACKme Networks. http://ack.me
Operational & Radio










Single operating voltage : 3.3V (typical)
All I/O pins are +5V tolerant
Operational Temperature Range: -30°C to +85°C
Size : 20.3 x 15.2 x 2.7mm (0.80” x 0.60” x 0.11”)
Weight : 0.07 oz (2g)
Current consumption @ 3.3V, 25°C
- VBAT : 0.97µA (with 32k RTC)
- Standby : 2.8µA (3.8uA with 32k RTC)
- Stop : 10µA with RAM retention (113µs wake)
- Wi-Fi Powersave : 0.77mA (DTIM = 3)
- Active receive : 5.7mA @ 1Mbit/s UDP
Active transmit : 11.4mA @ 1Mbit/s UDP
Maximum RF transmit power
- 802.11b/g : +18 dBm
- 802.11n : +14 dBm
Minimum Receive sensitivity
- 802.11b/g : -94 dBm
- 802.11n : -86 dBm
Sustained TCP throughput : 10 Mbit/s
Applications
 Industrial, M2M and Home Automation
- Environmental monitoring
- Energy monitoring
- Wireless sensing, remote data logging
- HVAC, power, light, & thermostat control
- Appliance control
 Security
- Cameras, Doors/Window monitoring
- Alarms, Smoke Detectors
- Door and entry control
 Health & Fitness
- Fitness Equipment
- Home health monitoring e.g. weight scales
 Consumer
- Audio, Toys, Robots
September 1, 2015
Page | ii
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Contents
1
General Description ............................................... 1
RF Exposure .......................................... 17
2
Block Diagram ........................................................ 2
Approved External Antenna Types ....... 17
3
Electrical Specifications.......................................... 3
Further Information .............................. 17
3.1
Absolute Maximum Ratings ............................ 3
3.2
Recommended Operating Conditions ............ 3
7.2
Labeling
and
User
Information
Requirements....................................................... 17
DC Operating Conditions ........................ 3
External Antenna Types ........................ 19
Environmental Conditions ...................... 4
4
5
6
3.3
Power Consumption ....................................... 4
3.4
32kHz Crystal .................................................. 5
Further Information .............................. 19
7.3
Summary WLAN Specifications....................... 6
4.2
WLAN Receiver Specifications ........................ 6
4.3
WLAN Transmitter Specifications ................... 7
External Antenna Requirements .......... 19
Further Information .............................. 20
7.4
Pinout and Signal Descriptions .............................. 8
5.1
Pinout.............................................................. 8
5.2
Pin Description................................................ 8
Recommended PCB Footprint ......................10
6.2
Routing Recommendations ..........................11
6.3
Soldering Information ...................................12
6.4
Module Photograph......................................13
6.5
External Antennas.........................................13
Further Information .............................. 20
7.5
Further Information .............................. 21
7.6
8
Wire Antenna........................................13
Monopole Antenna...............................14
6.6
7.1
Packaging, Handling and Storage, RoHS .............. 22
8.1
Packaging ...................................................... 22
8.2
Handling & Storage ....................................... 22
8.3
RoHS Directive .............................................. 22
8.4
Tape and Reel Specifications ........................ 23
Ordering Information ........................................... 25
10
Revision History & Glossary ................................. 26
Application Examples....................................15
Regulatory Certification .......................................16
Japan ............................................................. 21
9
Operation using WiConnect .................15
7
New Zealand ................................................. 21
External Antenna Requirements .......... 21
PCB Trace Antenna ...............................13
Chip Antenna ........................................14
Australia ........................................................ 20
External Antenna Requirements .......... 20
Design Guidelines.................................................10
6.1
Europe .......................................................... 19
Labeling
and
User
Information
Requirements....................................................... 19
WLAN RF Specifications ......................................... 6
4.1
Canada .......................................................... 17
11
10.1
Revision History ............................................ 26
10.2
Glossary ........................................................ 26
References ........................................................... 27
United States ................................................16
Labeling
and
User
Information
Requirements.......................................................16
ADS-MWx06-106R • Preliminary Data Sheet
©2014-2015 ACKme Networks. http://ack.me
September 1, 2015
Page | iii
General Description, Section 1
1
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
General Description
The AMW006 and AMW106 modules from ACKme Networks combine a microcontroller with a BCM43362 WiFi device to provide an advanced stand-alone Wi-Fi and
networking solution.
The term AMWx06 refers to both modules.
An integrated module avoids difficult RF layout and enables designers to rapidly embed Wi-Fi and secure networking functionality into virtually any device.
The ACKme Networks WiConnect serial-to-Wi-Fi application, pre-programmed into all modules, may be used to
fast-track module integration into end-products.
With dimensions of just 20.3mm x 15.2mm and a wide
temperature range, the module is suitable for integration into most embedded applications.
The Wi-Fi device from Broadcom includes an integrated
RF transmit power amplifier and provides superior WiFi performance and full compatibility with all 2.4GHz
802.11b/g/n Wi-Fi networks. Connections for two external antennas provide applications with maximum radio
range and mechanical design flexibility.
The module is powered by a 3.3V power supply, a separate WLAN power supply pin is provided to minimize
noise coupling into the WLAN subsystem.
Various powersave modes offer ultra-low power operation. Wake from low power sleep mode is possible using
IO pins or the internal real-time clock, and wake from ultra-low power standby mode is achieved using the dedicated wake pin.
The module incorporates a 32.768kHz crystal to maintain an accurate real time clock. A 32kHz clock output is
available on a dedicated module pin in both active power
save modes. The 32kHz clock output may be used to
drive the clock input of other system devices. This avoids
the need for an additional crystal thereby minimizing total system cost.
The module has FCC & IC modular approval for use in the
United States and Canada, CE approval for use in Europe,
TELEC/MIC approval for use in Japan and related approvals for use in other countries.
The microprocessor is based on a high-performance
ARM® 32-bit Cortex™-M4.
The AMW006/AMW106 microcontroller core operates
at a frequency up to 84/100MHz providing up to 125
DMIPS or 1.25 DMIPS/MHz (Dhrystone 2.1).
The AMW006 has 96KB of RAM.
The AMW106 has 128KB of RAM.
The AMWx06 module offers extensive I/O and peripheral interfaces listed below, and provides
additional interface combinations by leveraging
multiplexing and alternate function capabilities.






2 x 4-Wire UART interfaces
2 x SPI interfaces (1 master, 1 slave)
21 x GPIOs
9 x 12-bit A/D converters
14 x PWM outputs
1 x ultra-low power wake input
ADS-MWx06-106R • Preliminary Data Sheet
©2014-2015 ACKme Networks. http://ack.me
September 1, 2015
Page | 1
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Block Diagram, Section 2
2
Block Diagram
Figure 1 is a block diagram of the AMWx06 module. The
main components of the module are a microprocessor
and BCM43362 Wi-Fi System-on-Chip (SoC). The processor and peripherals are driven by a 26MHz crystal. The
integrated real-time clock (RTC) is driven by a 32.768kHz
crystal. An on-board 1MByte serial flash chip may be
used to store user data and configuration, additional applications, and firmware images as part of the ACKme secure over the air (OTA) update process.
The WLAN subsystem is controlled by WiConnect enabling the module to achieve minimum power consumption when the Wi-Fi networking interface is not required.
The module includes an antenna diversity switch. The
switch enables static or dynamic control of the external
antenna(s).
Figure 1. AMW006 / AMW106 Architecture
32kHz
26MHz
VBAT
1 MByte
Serial Flash
3v3 MCU
3v3 Wi-Fi
32kHz Out
ADC
PWM
UART
SPI
ARM
Cortex M4
Antenna
Switch
BCM43362
Wi-Fi
Antenna 1
Antenna 2
GPIO
Reset
AMW006 / AMW106
ADS-MWx06-106R • Preliminary Data Sheet
©2014-2015 ACKme Networks. http://ack.me
September 1, 2015
Page | 2
Electrical Specifications, Section 3
3
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Electrical Specifications
3.1 Absolute Maximum Ratings
CAUTION! The absolute maximum ratings in Table 1 and Table 2 indicate levels where permanent damage to the device
can occur, even if these limits are exceeded for only a brief duration. Functional operation is not guaranteed under
these conditions. Operation at absolute maximum conditions for extended periods can adversely affect long-term reliability of the device.
The values in Table 1 reflect absolute maximum ratings from the respective microprocessor and BCM43362 datasheets.
Table 1. Absolute Maximum Voltage Ratings
Symbol
Ratings
Min
Max
External power supply voltage to MCU VBAT pin
-0.3
4.0
VDD_3V3
External power supply voltage to MCU subsystem
-0.3
4.0
VDD_WIFI
External power supply voltage to WLAN subsystem
-0.5
6.0
GND - 0.3
VDD_3V3 + 4.0
VBAT
Vin
Input voltage on any other MCU pin
Unit
V
Table 2. Absolute Maximum Environmental Ratings
Characteristic
Storage Temperature
Relative Humidity
Note
Min
Max
Unit
–
-40
+125
°C
–
65
%
Non-condensing (storage)
3.2 Recommended Operating Conditions
Functional operation is not guaranteed outside the limits shown in Table 3 and Table 4, and operation outside these
limits for extended periods can adversely affect long-term reliability of the device.
DC Operating Conditions
Table 3. Recommended DC Operating Conditions
Symbol
VBAT
VDD_3V31
1,2
VDD_WIFI
Ratings
Min
Typ
Max
External power supply voltage to MCU VBAT pin
3.0
3.3
3.6
External power supply voltage to MCU subsystem
3.0
3.3
3.6
External power supply voltage to WLAN subsystem
3.0
3.3
3.6
Unit
V
Notes:
1. VDD_3V3 and VDD_WIFI must be at the same voltage when using the Wi-Fi subsystem
2. The performance of the Wi-Fi subsystem is degraded significantly at low voltages
ADS-MWx06-106R • Preliminary Data Sheet
©2014-2015 ACKme Networks. http://ack.me
September 1, 2015
Page | 3
Electrical Specifications, Section 3
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Environmental Conditions
Table 4. Recommended Environmental Conditions
Characteristic
Ambient Temperature
Relative Humidity
Note
Min
Max
Unit
Limited by WLAN chip specification
-30
+85
°C
–
85
%
Non-condensing (operating)
3.3 Power Consumption
Table 5. Power consumption (VDD_3V3, VDD_WIFI, VBAT @ 3.3V)
Operational State
Note
Typ1
Max1
Max1
TA =
25°C
TA =
85°C
Unit
VBAT7
MCU VBAT Mode, RTC on, Wi-Fi powered off
0.97
–
3.0
µA
Standby7
MCU Standby Mode, RTC on, Wi-Fi powered off
3.8
5.0
17.0
µA
MCU Stop Mode, Wi-Fi powered off
10
28
230
µA
MCU Stop mode, Wi-Fi in powersave
0.77
–
–
mA
MCU Stop mode, Wi-Fi active receive
5.7
–
–
mA
MCU Stop mode, Wi-Fi active transmit
11.4
–
–
mA
MCU Stop mode, Wi-Fi active transmit
–
320
–
mA
Stop
3, 7
Wi-Fi Powersave2,3
Active Receive
2,3,4
Active Transmit2,3,5
Wi-Fi Tx Test Mode
Notes:
1.
2.
3.
4.
5.
6.
7.
6
Total combined current consumed by all power supplies: VBAT, VDD_3V3, VDD_WIFI.
802.11 beacon Interval = 102.4ms, DTIM=3, Beacon Duration = 1ms @ 1Mbps.
MCU Stop Mode with 113µs wakeup latency (flash in deep power down mode), VDD_WIFI = 0V
Average current receiving 1Mbit/s UDP at 802.11n MCS7
Average current transmitting 1Mbit/s UDP at 802.11n MCS7
Wi-Fi Transmitting at +18dBm CCK 11Mbit/s with maximum duty cycle
Hardware capability; minimum power consumption is dependent on WiConnect version and external components connected to AMWx06 pins
ADS-MWx06-106R • Preliminary Data Sheet
©2014-2015 ACKme Networks. http://ack.me
September 1, 2015
Page | 4
Electrical Specifications, Section 3
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
3.4 32kHz Crystal
Table 6. 32kHz Crystal Specifications1
Operational State
Min
Typical
Max
Unit
Frequency
–
32768
–
Hz
Frequency Tolerance
–
20
–
ppm
-3
–
+3
ppm
Frequency Ageing
Note
Measured @25°C ±3°C
Notes:
1. Reproduced from manufacturer’s datasheet.
ADS-MWx06-106R • Preliminary Data Sheet
©2014-2015 ACKme Networks. http://ack.me
September 1, 2015
Page | 5
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
WLAN RF Specifications, Section 4
4
WLAN RF Specifications
The AMWx06 WLAN radio specifications are derived from the Broadcom BCM43362 WLAN radio specifications.
Unless otherwise stated, the specifications in this section apply when the operating conditions are within the limits
specified in Section 3.2, Recommended Operating Conditions. Functional operation outside these limits is not guaranteed.
All specifications are measured by connecting directly to either of the antenna ports via a short PCB trace with the
other antenna port terminated in 50 ohms.
4.1 Summary WLAN Specifications
Table 7. Summary WLAN Specifications
Feature Supported
Description
WLAN Standard
IEEE 802.11b/g/n 1x1 SISO
Frequency Band
2.400 GHz – 2.484 GHz
WLAN Channels
Channels 1 – 13
Data Rates
802.11b (1, 2, 5.5, 11 Mbps)
802.11g (6, 9, 12, 24, 36, 48, 54 Mbps)
802.11n (HT20 MCS0-MCS7)
Maximum Receive level
@ 2.4GHz
-2.5 dBm @ 1, 2 Mbps (8% PER, 1024 octets)
-8.5 dBm @ 5.5, 11 Mbps (8% PER, 1024 Octets)
-12 dBm @ 6-54 Mbps (10% PER, 1000 Octets)
Maximum RF Tx Output Power
+18 dBm @ 802.11b (EVM < -9 dB)
+14 dBm @ 802.11n MCS7 (EVM < -28 dB)
Carrier Frequency Accuracy
±20 ppm (26MHz crystal with ±10 ppm @ 25C)
4.2 WLAN Receiver Specifications
Table 8. WLAN Receiver Performance Specifications
Parameter
Frequency Range
Operating Temperature
1
Condition/Notes
Min
Typical
Max
Unit
–
2400
–
2500
MHz
–
-30
–
+85
°C
Receive Sensitivity2
(8% PER for 1024 octet PSDU)
at either antenna port3
1 Mbps DSSS
–
-94
-91
11 Mbps CCK
–
-87
-83
Receive Sensitivity2
(10% PER for 1000 octet
PSDU) at either antenna port3
6 Mbps OFDM
–
-86
-81
54 Mbps OFDM
–
-73
-69
ADS-MWx06-106R • Preliminary Data Sheet
©2014-2015 ACKme Networks. http://ack.me
dBm
dBm
September 1, 2015
Page | 6
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
WLAN RF Specifications, Section 4
Parameter
2
Condition/Notes
Min
Typical
Max
Receive Sensitivity
(10% PER for 4096 octet
PSDU) at either antenna port3.
Defined for default parameters: GF, 800ns GI, and nonSTBC
65 Mbps MCS0, HT20
–
-86
-81
65 Mbps MCS7, HT20
–
-70
-65
Max. Receive Level @ 2.4GHz
@ 1, 2 Mbps (8% PER, 1024 octets)
-2
–
–
@ 5.5, 11 Mbps (8% PER, 1024 Octets)
-8
–
–
@ 6-54 Mbps (10% PER, 1000 Octets)
-11.5
–
–
Unit
dBm
dBm
Notes:
1. Operation below -20°C and above +65°C with parameter derating per Note 2
2. Derate receive sensitivity by 1.5dB for operation between temperatures of -30°C to -20°C and 65°C to 85°C
3. All measurements performed with the other antenna port terminated in 50 ohms
4.3 WLAN Transmitter Specifications
Table 9. WLAN Transmitter Performance Specifications
Parameter
Condition/Notes
Min
Typical
Max
Unit
Frequency Range
–
2400
–
2500
MHz
Operating Temperature1
–
-30
–
+85
°C
2
Transmit power measured at
either antenna port3 for highest power level setting at
25°C, VDD-3V3_RF_IN=3.3V
with spectral mask and EVM
compliance
EVM does NOT exceed :
1 Mbps DSSS
-11 dB
+14
+16
+18
11 Mbps CCK
-11 dB
+14
+16
+18
6 Mbps OFDM
-22 dB
+12
+14
+16
54 Mbps OFDM
-25 dB
+12
+14
+16
MCS0, HT20
-22 dB
+10
+12
+14
MCS7, HT20
-28 dB
+10
+12
+14
dBm
Notes:
1. Operation below -20°C and above +65°C with parameter derating per Note 2
2. Derate transmit power by 1.5dB for operation between temperatures of -30°C to -20°C and 65°C to 85°C
3. All measurements performed with the other antenna port terminated in 50 ohms
ADS-MWx06-106R • Preliminary Data Sheet
©2014-2015 ACKme Networks. http://ack.me
September 1, 2015
Page | 7
Pinout and Signal Descriptions, Section 5
5
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Pinout and Signal Descriptions
5.1 Pinout
A top view of the AMWx06 pinout is depicted in Figure 2.
All dimensions are in thousands of an inch. A recommended footprint is provided in Section 6.1.
Figure 2. AMWx06 Pinout (TOP View – Pins NOT visible from top!)
5.2 Pin Description
Table 10. AMWx06 WiConnect Pin Definitions
Pin
Name
Type1
1-2
GND
3
VBAT
4
GPIO_0
5
Primary Function
Alternate & Other Function(s)
S
Ground
-
S
VBAT MCU supply
-
I/O
Factory Reset2
SPI1_MISO (S), GPIO
GPIO_1
I/O
GPIO
-
6
GPIO_2
I/O
GPIO
SPI1_SCK (S)
7
GPIO_3
I/O
GPIO
SPI1_CS (S)
8
GPIO_4
I/O
GPIO
-
9
OSC_32K_OUT
OSC_32K_OUT
-
10
VDD_3V3
11-12
13
GND
GPIO_5
O
I/O
S
I/O
3.3V MCU supply
Ground
-
GPIO
SPI1_MOSI (slave), PWM5
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September 1, 2015
Page | 8
Pinout and Signal Descriptions, Section 5
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Pin
Name
Type1
Primary Function
Alternate & Other Function(s)
14
GPIO_6
I/O
SPI0_MISO (M) 5
ADC6 (when SPI not in use).
Not available for digital I/O.
15
GPIO_7
I/O
SPI0_SCK (M) 5
ADC5 (when SPI not in use).
Not available for digital I/O.
16
GPIO_8
I/O
SPI0_MOSI (M) 5
ADC7 (when SPI not in use).
Not available for digital I/O.
17
GPIO_9
I/O
GPIO
UART0_RTS
18
GPIO_10
I/O
GPIO
UART0_CTS, PWM0
19
GPIO_11
I/O
UART0_RX
GPIO, PWM0
20
GPIO_12
I/O
UART0_TX
GPIO, PWM0
21
GPIO_13
I/O
GPIO
PWM1
22
GPIO_14
I/O
GPIO
PWM3
23
GPIO_15
I/O
GPIO
PWM3
24
GPIO_16
I/O
GPIO
PWM6
25
GPIO_17
I/O
GPIO
UART1_RX, ADC3, PWM4
GND
I/O
Ground
-
28
GPIO_18
I/O
GPIO
-
29
GPIO_19
I/O
GPIO
UART1_TX, ADC2, PWM4
30
GPIO_20
I/O
GPIO
ADC9, PWM2
31
GPIO_21
I/O
GPIO
ADC8, PWM2
32
GPIO_22
I/O
GPIO
UART1_CTS, WAKE, ADC0, PWM1
33
GPIO_23
I/O
GPIO
UART1_RTS, ADC1, PWM4
34
RESET_N
I
System Reset4
35
VDD_WIFI
S
3.3V WLAN supply
-
GND
S
Ground
-
ANTENNA_1
O
Wi-Fi Antenna3
-
GND
S
Ground
-
ANTENNA_2
O
Wi-Fi Antenna3
-
GND
S
Ground
-
26-27
36-42
43
44-46
47
48-52
Notes:
1. I = Input, O = Output, S = Supply
2. Factory reset is sampled at power-on-reset and available for other purposes thereafter.
3. Wi-Fi Antenna pins are AC-coupled and have a nominal 50 ohms output impedance.
ADS-MWx06-106R • Preliminary Data Sheet
©2014-2015 ACKme Networks. http://ack.me
September 1, 2015
Page | 9
Design Guidelines, Section 6
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
4. The module Reset pin is connected to the internal MCU via a 1k resistor.
We recommend driving the pin. If the pin is not driven, connect a 0.1uF capacitor to ground close to the pin to
bypass noise which may cause unintended reset.
5. Connected to SPI serial flash inside the module.
6
Design Guidelines
6.1 Recommended PCB Footprint
All dimensions in Figure 3 are in thousands of an inch unless otherwise marked.
Figure 3. AMWx06 Recommended Footprint (Top)
ADS-MWx06-106R • Preliminary Data Sheet
©2014-2015 ACKme Networks. http://ack.me
September 1, 2015
Page | 10
Design Guidelines, Section 6
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
6.2 Routing Recommendations
When designing a carrier board, the addition of ground fill directly underneath the AMWx06 module, rather than signal
or power traces, is recommended. If traces must be routed directly beneath the module, avoid routing directly underneath keepout areas shown in Figure 4 (ground fill is ok). All ground pads adjacent to antenna pins must be connected
to a solid ground plane. Failure to comply with these recommendations may result in degraded performance of WLAN
functionality.
Figure 4. AMWx06 Keepouts (TOP VIEW)
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AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Design Guidelines, Section 6
6.3 Soldering Information
Figure 5 - Recommended solder reflow profile
Figure 6 - Example solder reflow profile (AMW006-E03 evaluation board)
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AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Design Guidelines, Section 6
PCB Trace Antenna
6.4 Module Photograph
This 2.4 GHz PCB antenna can fit in an area smaller than
21mm x 10mm, and as small as 15mm x 6mm. To achieve
optimum performance, make an exact copy of this reference design.
Figure 7. AMW006 Photograph (Top)
6.5 External Antennas
The AMWx06 module supports two external antennas
and per-packet antenna diversity to achieve maximum
range. Antenna selection is available by setting WiConnect variables.
NOTE! BOTH antenna ports must be terminated in 50
ohms. If a single antenna is used, the other antenna port
should be terminated with a 50 ohm load. Failure to terminate both antenna ports may result in degraded radio
performance.
Figure 8 - Trace Antenna (dimensions in mm)
Wire Antenna
A suitable wire antenna is an 18-gauge wire with a length
of 25.4mm ± 2mm. The wire antennas should be perpendicular to each other, and at 45 degrees to the line between the antenna bases.
Table 11 - Tested External Antenna Types
Type1
Gain (dBi)
Printed antenna
PCB trace
3.2
Wire
Monopole
2.1
Johanson Tech.
2450AT42A100E
Chip
0.0
ACA-1SRPP-2400
Monopole
0.6
ACA-4HSRPP-2458
Monopole
1.0
Model
NOTE! Do NOT bend antennas backwards over the module; doing so will cause poor performance and may cause
undesirable
out-of-band
radio
transmissions.
(1) An antenna type comprises antennas having similar
in-band and out-of-band radiation patterns.
Figure 9 - AMW006-E03 eval board with wire antennas
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AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Design Guidelines, Section 6
Chip Antenna
The AMWx06 is certified for use with a chip antenna
from Johanson, part number 2450AT42A100E. Be sure to
follow the antenna layout design guidelines in the antenna datasheet.
Figure 10 – Chip antenna layout example
Monopole Antenna
A u.FL connector layout such as the one shown below
can be used to connect the whip antenna(s).
Figure 11 - u.FL connector layout
Suitable
monopole
antennas
include
the
ACA_1SSRPP_2400 and ACA_4HSRPP_2458, both of
which are available online at http://ack.me.
Figure 12 - ACA-1SSRPP2400
Figure 13 - ACA-4HSRPP2458
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Design Guidelines, Section 6
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
6.6 Application Examples
TBD
Operation using WiConnect
To use ACKme’s easy-to-use WiConnect serial-to-Wi-Fi
application, the module only requires an external connection to power and a UART serial interface. A host
processor connects to UART0 (pins 19/20) or UART1
(pins 25/29) as shown in Figure 14.
Figure 14. Using the AMW006 Module with WiConnect and a UART serial interface
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Regulatory Certification, Section 7
7
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Regulatory Certification
The AMW006 module has been certified for operation in
various regulatory domains. This section outlines certification information specific to the following countries
and regions:






United States
Canada
Europe
Australia
New Zealand
Japan
Should you require regulatory certification for the
AMW006 module in a country or region not listed, please
contact your local ACKme Networks sales office or create
a
support
request
via
our
website
at
http://ack.me/contact.
7.1 United States
The ACKme Networks AMW006 module has received
Federal Communications Commission (FCC) CFR47 Telecommunications, Part 15 Sub-part C “Intentional Radiators” modular approval in accordance with Part 15.212
Modular Transmitter approval. Modular approval allows
the end user to integrate the AMW006 module into a finished product without obtaining subsequent and separate FCC approvals for intentional radiation, provided no
changes or modifications are made to the module circuitry. Changes or modifications could void the user’s authority to operate the equipment. The end user must
comply with all of the instructions provided by the
Grantee which indicate installation and/or operating
conditions necessary for compliance.
The finished product is required to comply with all applicable FCC equipment authorization, regulations, requirements, and equipment functions not associated with the
transmitter module portion. For example, compliance
must be demonstrated to regulations for other transmitter components within the host product; to requirements for unintentional radiators (Part 15 Sub-part B
“Unintentional Radiators”), such as digital devices, computer peripherals, radio receivers, etc.; and to additional
authorization requirements for non-transmitter functions on the transmitter module (i.e. Verification, or Declaration of Conformity) (e.g., transmitter modules may
also contain digital logic functions) as appropriate.
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Labeling and User Information
Requirements
The AMW006 module has been labelled with a unique
FCC ID number, and if the FCC ID is not visible when the
module is installed inside another device, then the outside of the finished product into which the module is installed must also display a label referring to the enclosed
module. This exterior label can use wording as follows:
Contains FCC ID: 2ABPY-B5BD9
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.
The user manual for the product should include the following statement:
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.
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Regulatory Certification, Section 7
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Additional information on labeling and user information
requirements for Part 15 devices can be found in KDB
Publication 784748 available at the FCC Office of Engineering and Technology (OET) Laboratory Division
Knowledge Database (KDB) at the following website:
https://apps.fcc.gov/oetcf/kdb/index.cfm
RF Exposure
All transmitters regulated by FCC must comply with RF
exposure requirements. OET Bulletin 65, Evaluating
Compliance with FCC Guidelines for Human Exposure to
Radio Frequency Electromagnetic Fields, provides assistance in determining whether proposed or existing
transmitting facilities, operations or devices comply with
limits for human exposure to Radio Frequency (RF) fields
adopted by the Federal Communications Commission
(FCC). The bulletin offers guidelines and suggestions for
evaluating compliance.
If appropriate, compliance with exposure guidelines for
mobile and unlicensed devices can be accomplished by
the use of warning labels and by providing users with information concerning minimum separation distances
from transmitting structures and proper installation of
antennas.
The following statement must be included as a CAUTION
statement in manuals and OEM products to alert users
of FCC RF exposure compliance:
To satisfy FCC RF Exposure requirements for mobile
and base station transmission 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, operation at
closer than this distance is not recommended.
The antenna(s) used for this transmitter must not
be co-located or operating in conjunction with any
other antenna or transmitter
If the AMW006 module is used in a portable application
(i.e., the antenna is less than 20 cm from persons during
operation), the integrator is responsible for performing
Specific Absorption Rate (SAR) testing in accordance
with FCC rules 2.1091.
Approved External Antenna Types
Modular approval testing of the AMW006 was performed with the antenna types listed in Table 11 - Tested
External Antenna Types.
To maintain modular approval in the United States, only
the tested antenna types shall be used. It is permissible
to use different antenna manufacturers provided the antenna types match: in-band and out-of-band radiation
patterns and antenna gain must be similar to those
tested.
Further Information
Additional information regarding FCC certification and
use of the AMW006 module in the United States is available from the following sources.
 Federal Communications Commission (FCC)
http://www.fcc.gov.au
 FCC Office of Engineering and Technology (OET) Laboratory Division Knowledge Database (KDB)
http://apps.fcc.gov/oetcf/kdb/index.cfm
7.2 Canada
The AMW006 module has been certified for use in Canada under Industry Canada (IC) Radio Standards Specification (RSS) RSS-210 and RSSGen. Modular approval permits the installation of a module in a host device without
the need to recertify the device.
Labeling and User Information
Requirements
Labeling Requirements for the Host Device (from Section
3.2.1, RSS-Gen, Issue 3, December 2010): The host device shall be properly labeled to identify the module
within the host device.
The Industry Canada certification label of a module shall
be clearly visible at all times when installed in the host
device, otherwise the host device must be labeled to display the Industry Canada certification number of the
module, preceded by the words “Contains transmitter
module”, or the word “Contains”, or similar wording expressing the same meaning, as follows:
Contains transmitter module IC: 11685A-61F8D
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Regulatory Certification, Section 7
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
User Manual Notice for License-Exempt Radio Apparatus
(from Section 7.1.3 RSS-Gen, Issue 3, December 2010):
User manuals for license-exempt radio apparatus shall
contain the following or equivalent notice in a conspicuous location in the user manual or alternatively on the
device or both:
This device complies with Industry Canada licenseexempt 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
onditions suivantes: (1) l'appareil ne doit pas
produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radioélectrique
subi, meme si le brouillage est susceptible d'en compromettre le fonctionnement.
Transmitter Antenna Notification (from Section 7.1.2
RSS-Gen, Issue 3, December 2010): User manuals for
transmitters shall display the following notice in a conspicuous location:
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 (EIRP) 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 brouil-lage
radioélectrique à l'intention des autres utilisa-teurs,
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.
The above notice may be affixed to the device instead of
displayed in the user manual.
User manuals for transmitters equipped with detachable antennas shall also contain the following notice in a
conspicuous location:
This radio transmitter (identify the device by certification number, or model number if Category II) has
been approved by Industry Canada to operate with
the antenna types listed below with the maximum
permissible gain and required antenna impedance
for each antenna type indicated. Antenna types not
included in this list, having a gain greater than the
maximum gain indicated for that type, are strictly
prohibited for use with this device.
Le présent émetteur radio (identifier le dispositif par
son numéro de certification ou son numéro de
modèle s'il fait partie du matériel de catégorie I) a été
approuvé par Industrie Canada pour fonctionner
avec les types d'antenne énumérés ci-dessous et
ayant un gain admissible maximal et l'impédance
requise pour chaque type d'antenne. Les types d'antenne non inclus dans cette liste, ou dont le gain est
supérieur au gain maximal indiqué, sont strictement
interdits pour l'exploitation de l'émetteur.
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Regulatory Certification, Section 7
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Immediately following the above notice, the manufacturer shall provide a list of all antenna types approved
for use with the transmitter, indicating the maximum
permissible antenna gain (in dBi) and required impedance for each.
External Antenna Types
Modular approval testing of the AMW006 was performed with the antenna types listed in Table 11 - Tested
External Antenna Types.
Transmitter Antenna (from Section 7.1.2 RSS-Gen, Issue
3, December 2010):
The AMW006 module can only be sold or operated with
antennas with which it was approved. Transmitter may
be approved with multiple antenna types. An antenna
type comprises antennas having similar in-band and outof-band radiation patterns. Testing shall be performed
using the highest gain antenna of each combination of
transmitter and antenna type for which approval is being
sought, with the transmitter output power set at the
maximum level. Any antenna of the same type having
equal or lesser gain as an antenna that had been successfully tested with the transmitter, will also be considered
approved with the transmitter, and may be used and
marketed with the transmitter.
When a measurement at the antenna connector is used
to determine RF output power, the effective gain of the
device's antenna shall be stated, based on measurement
or on data from the antenna manufacturer.
For transmitters of output power greater than 10 milliwatts, the total antenna gain shall be added to the measured RF output power to demonstrate compliance to the
specified radiated power limits.
The AMW006 module has been tested to R&TTE Directives as summarized in Table 12. European Compliance
Testing. Opinion has also been issued. All AMW006 test
reports are available on the ACKme Networks website at
http://ack.me/contact.
The R&TTE Compliance Association provides guidance
on modular devices in the document titled Technical
Guidance Note 01 available on the website at
http://www.rtteca.com/html/download_area.htm.
NOTE: To maintain conformance to the testing listed
in Table 12. European Compliance Testing, the module shall be installed in accordance with the installation instructions in this data sheet and shall not be
modified.
When integrating a radio module into a completed
product the integrator becomes the manufacturer of
the final product and is therefore responsible for
demonstrating compliance of the final product with
the essential requirements of the R&TTE Directive.
Labeling and User Information
Requirements
The label on the final product which contains the
AMW006 module must follow CE marking requirements.
The R&TTE Compliance Association Technical Guidance
Note 01 provides guidance on final product CE marking
External Antenna Requirements
From R&TTE Compliance Association document Technical Guidance Note 01:
7.3 Europe
Provided the integrator installing an assessed radio module with an integral or specific antenna and installed in
conformance with the radio module manufacturer’s installation instructions requires no further evaluation under Article 3.2 of the R&TTE Directive and does not require further involvement of an R&TTE Directive Notified
Body for the final product. [Section 2.2.4]
The AMW006 module is an R&TTE Directive assessed radio module that is CE marked and has been manufactured and tested with the intention of being integrated
into a final product.
The European Compliance Testing listed in Table 12. European Compliance Testing was performed using antenna types listed in Table 11 - Tested External Antenna
Types.
Further Information
Additional information may be obtained from the Industry Canada website at http://www.ic.gc.ca
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Regulatory Certification, Section 7
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Further Information
A document that can be used as a starting point in understanding the use of Short Range Devices (SRD) in Europe is the European Radio Communications Committee
(ERC) Recommendation 70-03 E, which can be downloaded from the European Radio Communications Office
(ERO) at: http://www.ero.dk.
Further information may be obtained from the following
websites:
 Radio and Telecommunications Terminal Equipment (R&TTE)
http://ec.europa.eu/enterprise/rtte/index_en.htm
 European Conference of Postal and Telecommunications Administrations (CEPT)
http://www.cept.org
 European Telecommunications Standards Institute
(ETSI)
http://www.etsi.org
 European Radio Communications Office (ERO)
http://www.ero.dk
 The Radio and Telecommunications Terminal
Equipment Compliance Association (R&TTE CA)
http://www.rtteca.com/
Table 12. European Compliance Testing
Certification
Standard
Report Number
Date
Laboratory
Safety
EN 60950-1:2006, A11:2009, A1:2010,
A12:2011, A2:2013
W6M2141014584-L
Jan 15, 2015
Worldwide Testing
Services (Taiwan) Co., Ltd.
EMF
EN 62311:2008
EA560122
Jul 1, 2015
EMC
EN 301 489-1 v1.9.2 (2011-09), Class B
EN 301 489-17 v2.2.1 (2012-09)
EN 55022:2010/AC:2011, Class B
EN 55024:2010
EH560122
Jul 1, 2015
Sporton International, Inc.
(Taiwan)
Radio
EN 300 328 v1.9.1 (2015-02)
ER560122
Jul 1, 2015
TCF-1334TC15
Jul 5, 2015
Notified Body
Opinion
1177
7.4 Australia
Australian radio regulations do not provide a modular
approval policy similar to the United States (FCC) and
Canada (IC). However, AMW006 module test reports
may be used in part to demonstrate compliance in accordance with ACMA Radio communications “Short
Range Devices” Standard 2004 which references Australia/New Zealand industry standard AS/NZS4268:2012. AMW006 RF transmitter test reports may be
used as part of the product certification and compliance
folder. For further information regarding the availability
of RF test reports, please contact ACKme Networks via
our website at http://ack.me/contact.
ADS-MWx06-106R • Preliminary Data Sheet
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TIMCO Engineering, Inc.
External Antenna Requirements
Compliance tests were performed using antenna types
listed in Table 11 - Tested External Antenna Types.
If an external antenna is used with the AMW006 module,
additional testing of the end product is needed to meet
Australian regulatory requirements.
Further Information
Additional information may be obtained from the Australian Communications and Media Authority website at
http://www.acma.gov.au.
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Regulatory Certification, Section 7
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Further Information
7.5 New Zealand
New Zealand radio regulations do not provide a modular
approval policy similar to the United States (FCC) and
Canada (IC). However, AMW006 module test reports
may be used in part to demonstrate compliance with the
New Zealand “General User Radio License for Short
Range Devices”. New Zealand Radio communications
(Radio Standards) Notice 2010 references Australia/New
Zealand industry standard AS/NZS-4268:2012. AMW006
RF transmitter test reports may be used as part of the
product certification and compliance folder. For further
information regarding the availability of RF test reports,
please contact ACKme Networks via our website at
http://ack.me/contact.
Additional information may be obtained from the New
Zealand Radio Spectrum Ministry of Economic Development website at http://www.rsm.govt.nz.
7.6 Japan
The AMW006 has been tested to comply with the radio
regulations set forth by the Japanese Ministry of Internal
Affairs and Communications (MIC) as documented in Table 13. The module is certified for operation with each of
the antenna types listed in Table 11 - Tested External Antenna Types.
External Antenna Requirements
Compliance tests were performed using antenna types
listed in Table 11 - Tested External Antenna Types.
If an external antenna is used with the AMW006 module,
additional testing of the end product is needed to meet
New Zealand regulatory requirements.
Table 13. Japan Compliance Testing
Certification
Standard
Report Number
Date
Laboratory
Verification of
Compliance
VCCI V-3/2014.04 Class B ITE
JV560122
Jul 1, 2015
Sporton International, Inc.
(Taiwan)
Radio
Notice No. 88 Appendix No. 43
JRF560122
Jul 1, 2015
152150256/AA/00
Jul 6, 2015
Equipment
Marking
ADS-MWx06-106R • Preliminary Data Sheet
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Telefication, BV.
(The Netherlands)
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Packaging, Handling and Storage, RoHS, Section 8
8
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Packaging, Handling and
Storage, RoHS
8.1 Packaging
8.3 RoHS Directive
The AMWx06 module is produced according to the RoHS
(Restriction of the use of certain Hazardous Substances
in electrical and electronic equipment) directive and
complies with the directive.
Each AMWx06/S module is individually packaged in an
ESD bag. The bag is NOT compliant with MSL3, and accordingly AMWx06/S modules should NOT be passed
through a reflow oven. AMWx06/S modules should be
hand-soldered ONLY!
If reflow is required, AMWx06/S must be baked first according to Joint Industry Standard J-STD-033C.
AMWx06/R modules are shipped in a reel enclosed inside a moisture resistant sealed bag. The shelf life of the
sealed reel is 12 months at 40°C and <90% Relative Humidity (RH). Please refer to the bag seal date and the following section for handling & storage.
8.2 Handling & Storage
CAUTION
MSL3 Sensitive Device!
The AMW006 module is a moisture sensitive device
rated at Moisture Sensitive Level 3 (MSL3) per IPC/JEDEC
J-STD-20.
After opening the moisture sealed storage bag, modules
that will be subjected to reflow solder or other high temperature processes must be:
1. mounted to a circuit board within 168 hours at
factory conditions (≤30°C and <60% RH)
OR
2. continuously stored per IPC/JEDEC J-STD-033
Modules that have been exposed to moisture and environmental conditions exceeding packaging and storage
conditions MUST be baked before mounting according
to IPC/JEDEC J-STD-033.
Failure to meet packaging and storage conditions will result in irreparable damage to modules during solder reflow.
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AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Packaging, Handling and Storage, RoHS, Section 8
8.4 Tape and Reel Specifications
Figure 15 - Tape Specifications
Symbol
Specification (mm)
Symbol
Specification (mm)
A0
B0
D0
E
F
K0
11.8 ± 0.10
18.1 ± 0.10
1.5 ± 0.10
1.75 ± 0.10
14.2 ± 0.10
2.70 ± 0.10
P
P0
P2
T
W
20.0 ± 0.10
4.00 ± 0.10
2.00 ± 0.10
0.30 ± 0.05
32.0 ± 0.30

Tape material : black PS material, in line with ROHS environmental management substances

Tape thickness: 0.3 mm ± 0.05 mm

Tape width: 32mm (1.3")

Protection zone: black PS material

Distance between chain hole centers within the range of ± 0.2 mm of cumulative error

Anti-camber at 1 mm / 250 mm

All dimensions in line with the requirements of EIA-481-D
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Packaging, Handling and Storage, RoHS, Section 8
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Figure 16 - Reel Specifications
Symbol
Specification (mm)
A
B
C1
D
E
H
T
2.5 ± 0.2
11 ± 0.2
330 ± 1
99.5 ± 0.1
13.2 ± 0.2
32.8 + 0.3 / -0.2
2.25 ± 0.2
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September 1, 2015
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Ordering Information, Section 9
9
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Ordering Information
The AMWx06 module is available individually or in a bulk reel of 900 units as described in Table 14.
Table 14. Ordering Information
Part Number
Description
AMW006/S
1 x AMW006 module with WiConnect pre-installed. Each module is individually packaged in
an ESD bag.
AMW006/R
A single reel containing 900 x AMW006 modules, each with WiConnect pre-installed. The entire reel is packaged in an ESD and MSL3-rated moisture sensitive bag.
Part Number
Description
AMW106/S
1 x AMW106 module with WiConnect pre-installed. Each module is individually packaged in
an ESD bag.
AMW106/R
A single reel containing 900 x AMW106 modules, each with WiConnect pre-installed. The entire reel is packaged in an ESD and MSL3-rated moisture sensitive bag.
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AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
Revision History & Glossary, Section 10
10 Revision History & Glossary
10.1 Revision History
Table 15: Document Revision History
Revision
Date
Change Description
ADS-MW006-100R
Oct 20, 2014
Initial preliminary release
ADS-MW006-101R
Nov 25, 2014
Updated schematic, PCB trace antenna
ADS-MW006-102R
Mar 20, 2015
Added note on reset pin
ADS-MW006-103R
Apr 10, 2015
Added note on MLS3 non-compliance, and note on power consumption
ADS-MW006-104R
May 5, 2015
Added solder reflow charts, AMW106 properties
ADS-MW006-105R
Jun 9, 2015
Removed AMW106 properties; updated GPIO and ADC details
ADS-MWx06-106R
Sep 1, 2015
Added AMW106
Updated/added ETSI/CE v1.9.1 and Japan certification
Added tape and reel specifications.
10.2 Glossary
In most cases, acronyms and abbreviations are defined on first use. A comprehensive list of acronyms and other
terms used in ACKme Networks documents are provided on the ACKme Networks website at
https://www.ack.me/FAQs/Glossary_of_Terms.
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References, Section 11
AMW006 / AMW106 • Embedded Wi-Fi Networking Solutions
11 References
Throughout this data sheet, references to other documents are listed. The following documents provide additional material:
1. IEEE 802.11 Standard – 2012
Institute of Electrical and Electronics Engineers.
http://standards.ieee.org
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