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WSN802G
· Small Size, Light Weight, Low Cost
· 7.5 µA Sleep Current Supports Battery Operation
802.11g
Wireless
Sensor
Network
Module
· Timer and Event Triggered Auto-reporting Capability
· Analog, Digital, Serial and SPI I/O for Sensor Applications
· -40 to +85 oC Operating Temperature Range
· FCC, Canadian IC and ETSI Certified for Unlicensed Operation
The WSN802G transceiver module is a low cost, robust solution for 802.11g sensor
networks. The WSN802G’s very low sleep current makes long life battery operation
practical. The WSN802G module includes analog, digital, serial and SPI I/O, providing the flexibility and versatility needed to serve a wide range of sensor network
applications. The WSN802G module is easy to integrate and is compatible with standard 802.11b/g access points.
WSN802G Absolute Maximum Ratings
Rating
Value
Units
Input/Output Pins Except ADC Inputs
-0.5 to +3.63
V
ADC Input Pins
-0.5 to 1.98
Non-Operating Ambient Temperature Range
-40 to +85
V
o
C
WSN802G Electrical Characteristics
Characteristic
Sym
Notes
Operating Frequency Range
Minimum
Typical
Maximum
Units
2474
MHz
2401
Spread Spectrum Method
Direct Sequence
RF Chip Rate
11
Mcps
RF Data Rates
1, 2, 5.5, 11
Mbps
BPSK at 1 Mbps, QPSK at 2 Mbps,
CCK at 5.5 and 11 Mbps
Modulation Type
Number of RF Channels
11
RF Channel Spacing
5
MHz
1 Mbps RF Data Rate
-92
dBm
2 Mbps RF Data Rate
-90
dBm
5.5 Mbps RF Data Rate
-84
dBm
11 Mbps RF Data Rate
-81
dBm
10
mW
Receiver Sensitivity, 8% PER:
RF Transmit Power
RF Connector
U.FL Coaxial Connector
Optimum Antenna Impedance
©2010-2015 by Murata Electronics N.A., Inc.
WSN802GC (R) 01/30/15
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WSN802G Electrical Characteristics
Characteristic
Sym
Notes
ADC Input Range
Minimum
Typical
0
ADC Input Resolution
Maximum
Units
1.8
V
10
ADC Input Impedance
bits
1
MW
PWM Output Resolution
16
Data Serial Port Baud Rates
Diagnostic Serial Port Baud Rates
bits
1.2, 2.4, 4.8, 9.6 (default), 19.2, 28.8, 38.4, 57.6,
76.8, 115.2, 230.4, 460.8, 921.6
kbps
1.2, 2.4, 4.8, 9.6 (default), 19.2, 28.8, 38.4,
57.6, 76.8, 115.2
kbps
Serial Peripheral Interface (SPI) Data Rate, Master Mode
11
Mbps
Serial Peripheral Interface (SPI) Data Rate, Slave Mode
2
Mbps
Digital I/O:
Logic Low Input Level
-0.3
0.7
V
Logic High Input Level
2.24
VCC
V
Input Pull Up Resistor
50
1000
KW
Logic Low Output Level
0
0.4
V
Logic High Output Level
2.4
VCC
V
+3
+3.63
Vdc
Power Supply Voltage Ripple
10
mVP-P
Receive Mode Current
150
mA
Transmit Mode Current
200
mA
Power Supply Voltage Range
VCC
Sleep Mode Current
7.5
WSN802GC Mounting
Reflow Soldering
WSN802GP Mounting
Socket
µA
Operating Temperature Range
-40
85
o
Operating Relative Humidity Range, Non-condensing
10
90
%
C
CAUTION: Electrostatic Sensitive Device. Observe precautions when handling.
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W
N 8 0 2 G
3 2 .7
1
G N D
8 k H z
4 4 M H z
2
D IA G _ T X
3
D IA G _ R X
4
G P IO 0
R A D IO _ T X D
5
R A D IO _ R X D
/H O
T _ C T
7
/H O
T _ R T
8
P W M 0
9
G P IO 2
1 0
G P IO 1
1 1
G P IO 3
1 2
R
1 3
V D
B lo c k D ia g r a m
V C C
1 4
G N D
1 5
2 1
2 2
2 3
2 4
2 5
2
2 7
2 8
2 9
R F IO
3 0
R
2 0
W A K E _ O U T
1 9
G N D
1 8
A D C
1 7
B a lu n
&
B P F
W A K E _ IN
1
A D C 1
R e g
M I O
+ 1 .8 V
A D C 0
R e g
F ilte r
/R E
+ 3 .3 V
8 0 2 .1 1 g
L o w C u rre n t
T r a n s c e iv e r
V D
C L K
I
R E F
E T
3 .3 V _ O U T
M O
G N D
/
G N D
Figure 1
WSN802G Hardware
Rev F WSN802G Firmware
The WSN802G operates in the international 2.4 GHz
ISM band over the frequency range of 2401-2474 MHz,
with a nominal RF output power of 10 mW. The WSN802G supports four standard 802.11g RF data rates 1, 2, 5.5 and 11 Mbps.
The major firmware components in the WSN802G include the 802.11g stack and the application protocol.
The WSN802G acts as a UDP client to a data and/or
sensor application running on a network server.
The WSN802G includes two 10-bit ADC inputs, one
16-bit PWM (DAC) output, and four general purpose I/O
(GPIO) ports to support sensor network applications.
The application protocol supports three operating modes:
(1) sleeping sensor node with timer or interrupt autoreporting, (2) sleeping serial data node with timer or interrupt wake-up and (3) always on sensor or serial data
node with auto-reporting. Modes 1 and 2 take full advantage of the very low sleep current capability of the
WSN802G. The module sleeps unless the WAKE_IN
input is asserted or the AutoReport timer fires. A WakeTimeout timer is provided to hold the module awake for
a configurable period. The WakeTimout timer is held in
reset as long as WAKE_IN is asserted, serial data is
being received, an RF packet is being sent or received,
or if the module is uncommissioned.
The WSN802G module is available in two mounting configurations. The WSN802GC is designed for solder reflow
mounting, and the WSN802GP is designed for plug-in
connector mounting.
The WSN802G asserts WAKE_OUT whenever it is
awake to notify its external host. The module also sends
an I/O status report automatically each time WAKE_IN is
asserted, and/or each time the AutoReport timer fires.
The WSN802G transceiver module provides a variety of
hardware interfaces. There are two serial interfaces, one
for data and a second for diagnostics. The data port supports standard serial baud rates from 1.2 to 921.6 kbps,
with optional hardware flow control. The diagnostic port
supports standard baud rates from 1.2 to 115.2 kbps.
The WSN802G also includes an SPI port that supports
data rates up to 2 Mbps in slave mode, and up to
11 Mbps in master mode.
©2010-2015 by Murata Electronics N.A., Inc.
WSN802GC (R) 01/30/15
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WSN802G I/O Pad Descriptions
Pin
Name
I/O
Description
1
GND
-
Power supply and signal ground. Connect to the host circuit board ground.
2
DIAG_TX
O
Diagnostic serial port output.
3
DIAG_RX
I
Diagnostic serial port input.
4
GPIO0
I/O
Configurable digital I/O port 0. An internal weak pull up is provided when configured as an input.
5
RADIO_TXD
O
Serial data output from the radio.
6
RADIO_RXD
I
Serial data input to the radio.
7
/HOST_CTS
O
UART/SPI flow control output. The module sets this line low to indicate it is ready to accept data from the host
on the RADIO_RXD or MOSI input. When the module sets this line high, the host must stop sending data.
8
/HOST_RTS
I
UART flow control input. The host sets this line low to allow data to flow from the module on the RADIO_TXD
pin. When the host sets this line high, the module will stop sending data to the host.
9
PWM0
O
16-bit pulse-width modulated output 0 with internal low-pass filter. Filter is first-order, with a 159 Hz 3 dB
bandwidth, 10K output resistance.
10
GPIO2
I/O
Configurable digital I/O port 2. An internal weak pull up is provided when configured as an input.
11
GPIO1
I/O
Configurable digital I/O port 1. An internal weak pull up is provided when configured as an input.
12
GPIO3
I/O
Configurable digital I/O port 3. An internal weak pull up is provided when configured as an input.
13
RSVD
-
Reserved pin. Leave unconnected.
14
VCC
I
Power supply input, +3.0 to +3.63 Vdc.
15
GND
-
Connect to the host circuit board ground.
16
GND
-
Connect to the host circuit board ground.
17
/RESET
I
Active low module hardware reset.
18
ADC0
I
10-bit ADC input 0. ADC full scale reading can be referenced to the module’s +1.8 V regulated supply.
19
ADC1
I
10-bit ADC input 1. ADC full scale reading can be referenced to the module’s +1.8 V regulated supply.
20
MISO
I/O
SPI master in, slave out function. This pin is an input when the module is operating as a master, and is an
output when the module is operating as a slave.
21
MOSI
I/O
SPI master out, slave in function. This pin is an output when the module is operating as a master, and is an
input when the module is operating as a slave.
22
/SS
I/O
SPI active low slave select. This pin is an output when the module is operating as a master, and an input
when it is operating as a slave.
23
SCLK
I/O
SPI clock signal. This pin is an output when operating as a master, and an input when operating as a slave.
24
3.3V_OUT
O
Module’s +3.3 V regulated supply, available to power external sensor circuits. Current drain on this output
should be no greater than 50 mA.
25
ADC_REF
O
Module’s +1.8 V regulated supply, used for ratiometric ADC readings. Current drain on this output should be
no greater than 10 mA.
26
WAKE_IN
I
Active high interrupt input to wake the module from timer sleep. Can be used to wake module on event, etc.
27
WAKE_OUT
O
Active high output asserted when module wakes from timer sleep. Can be used to wake an external device.
28
GND
-
Connect to the host circuit board ground plane.
29
RSVD
-
Reserved pin. Leave unconnected.
30
GND
-
Connect to the host circuit board ground plane.
©2010-2015 by Murata Electronics N.A., Inc.
WSN802GC (R) 01/30/15
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W
N 8 0 2 G C O u tlin e a n d M o u n tin g D im e n s io n s
1 .0 5 0
(2 .7 )
0 .0 5 0 (1 .2 7 )
0 .0 4 0
(1 .0 2 )
1 5
0 .0 3 0 (0 .7
1
)
0 .9 8 0
(2 4 .9 )
T o p V ie w
1
3 0
0 .0 5 0 (1 .2 7 )
0 .1 2 5
(3 .1 8 )
0 .0 9 0
(2 .2 9 )
D im e n s io n s in in c h e s (m m )
Figure 2
WSN802G Antenna Connector
A U.FL miniature coaxial connector is provided on both WSN802G configurations for connection to the RFIO port.
A short U.FL coaxial cable can be used to connect the RFIO port directly to an antenna. In this case the antenna
should be mounted firmly to avoid stressing the U.FL coaxial cable due to antenna mounting flexure. Alternately,
a U.FL coaxial jumper cable can be used to connect the WSN802G module to a U.FL connector on the host circuit board. The connection between the host circuit board U.FL connector and the antenna or antenna connector
on the host circuit board should be implemented as a 50 ohm stripline. Referring to Figure 3, the width of this
stripline depends on the thickness of the circuit board between the stripline and the groundplane. For FR-4 type
circuit board materials (dielectric constant of 4.7), the width of the stripline is equal to 1.75 times the thickness of
the circuit board. Note that other circuit board traces should be spaced away from the stripline to prevent signal
coupling, as shown in Figure 4. The stripline trace should be kept short to minimize its insertion loss.
C ir c u it B o a r d
tr ip lin e T r a c e D e ta il
C o p p e r
tr ip lin e
T ra c e
C o p p e r
G ro u n d
P la n e
F R -4 P C B
M a te r ia l
F o r 5 0 o h m
im p e d a n c e W
Trace Separation from
50 ohm Microstrip
Length of Trace Run
Parallel to Microstrip
100 mil
125 mil
150 mil
200 mil
200 mil
290 mil
250 mil
450 mil
300 mil
650 mil
= 1 .7 5 * H
Figure 3
©2010-2015 by Murata Electronics N.A., Inc.
WSN802GC (R) 01/30/15
Figure 4
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W
N 8 0 2 G C
o ld e r P a d D im e n s io n s
0 .0 5 0 (1 .2 7 )
0 .0 0
(1 .5 2 )
1 5
1 .0 5 0
(2 .7 )
1
0 .0 3 5 (0 .8 9 )
0 .9 0 1 .0 4 0
(2 4 .4 ) (2 .4 )
T o p V ie w
1
3 0
0 .0 5 0
(1 .2 7 )
D im e n s io n s in in c h e s (m m )
Figure 5
W
N 8 0 2 G P O u tlin e a n d M o u n tin g D im e n s io n s
0 .0 5 0 (1 .2 7 )
0 .0 0
(1 .5 2 )
1 .0 5 0
(2 .7 )
1 5
0 .9 8 0
(2 4 .9 )
1
1 .1 0 0
(2 7 .9 )
T o p V ie w
1
3 0
0 .0 5 0 (1 .2 7 )
0 .1 2 5
(3 .1 8 )
0 .0 9 0
(2 .2 9 )
0 .2 2 5
(5 .7 2 )
D im e n s io n s in in c h e s (m m )
Figure 6
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0 .1 0 0
(2 .5 4 )
N 8 0 2 G P In te r fa c e C o n n e c to r
P C B L a y o u t D e ta il
0 .0 5 0
(1 .2 7 )
0 .8 0 0
(2 0 .3 )
C o n n e c to rs a re
A M T E C
L M -1 1 5 -0 1 -G o r E q u iv a le n t
0 .7 0 0
(1 7 .8 )
0 .9 8 0
(2 4 .9 )
D im e n s io n s a r e in in c h e s (m m )
Figure 7
Note: Specifications subject to change without notice.
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