u blox LILYW1 Wireless Communication System Module User Manual LILY W1 series

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Document Title	LILY-W1 series
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LILY-W1 series
Host-based Wi-Fi modules
Data Sheet
Abstract
This technical data sheet describes LILY-W1 series short range Wi-Fi
frontend modules. These host-based modules are ultra-compact
cost efficient IEEE 802.11b/g/n Wi-Fi front end modules in the LILY
form factor. This module series includes variants with or without
internal antenna and LTE filter. It includes an integrated
MAC/Baseband processor and RF front-end components. It can
connect to a host through its SDIO or USB interface.
www.u-blox.com
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LILY-W1 series - Data Sheet
Document Information
Title
LILY-W1 series
Subtitle
Host-based Wi-Fi modules
Document type
Data Sheet
Document number
UBX-15000203
Revision and date
R04
Document status
Early Production Information
07-Jul-2016
Document status explanation
Objective Specification
Document contains target values. Revised and supplementary data will be published later.
Advance Information
Document contains data based on early testing. Revised and supplementary data will be published later.
Early Production Information
Document contains data from product verification. Revised and supplementary data may be published later.
Production Information
Document contains the final product specification.
This document applies to the following products:
Product name
Type number
Firmware version
PCN / IN reference
LILY-W131
LILY-W131-00B-00
LILY-W132
LILY-W132-00B-00
u-blox reserves all rights to this document and the information contained herein. Products, names, logos and designs described herein may in
whole or in part be subject to intellectual property rights. Reproduction, use, modification or disclosure to third parties of this document or
any part thereof without the express permission of u-blox is strictly prohibited.
The information contained herein is provided “as is” and u-blox assumes no liability for the use of the information. No warranty, either
express or implied, is given, including but not limited, with respect to the accuracy, correctness, reliability and fitness for a particular purpose
of the information. This document may be revised by u-blox at any time. For most recent documents, visit www.u-blox.com.
Copyright © 2016, u-blox AG.
u-blox® is a registered trademark of u-blox Holding AG in the EU and other countries.
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Contents
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LILY-W1 series - Data Sheet
Contents
Contents.............................................................................................................................. 3
Functional description.................................................................................................. 5
1.1
Overview .............................................................................................................................................. 5
1.2
1.3
Product features ................................................................................................................................... 5
Block diagram....................................................................................................................................... 6
1.4
Product description ............................................................................................................................... 6
1.5
1.6
Supported features ............................................................................................................................... 7
Wi-Fi performance ................................................................................................................................ 7
1.7
MAC addresses..................................................................................................................................... 8
Interfaces ...................................................................................................................... 9
2.1
Host interfaces...................................................................................................................................... 9
2.1.1
USB interface................................................................................................................................. 9
2.1.2
SDIO interface ............................................................................................................................... 9
2.2
Antenna interfaces ............................................................................................................................. 10
2.2.1
Internal antenna .......................................................................................................................... 10
2.2.2
External RF antenna interface ...................................................................................................... 10
2.3
Power supply interfaces ...................................................................................................................... 11
2.4
2.4.1
2.4.2
Reset ........................................................................................................................................... 11
Power down ................................................................................................................................ 11
2.4.3
Sleep ........................................................................................................................................... 11
Pin definition .............................................................................................................. 12
3.1
Power mode interfaces ....................................................................................................................... 11
Pin assignment ................................................................................................................................... 12
Electrical specifications .............................................................................................. 15
4.1
Absolute maximum ratings ................................................................................................................. 15
4.1.1
Maximum ESD ratings ................................................................................................................. 15
4.2
Operating conditions .......................................................................................................................... 15
4.2.1
4.2.2
Temperature range ...................................................................................................................... 15
Power supply ............................................................................................................................... 15
4.2.3
Power consumption .................................................................................................................... 16
4.2.4
4.2.5
I/O DC characteristics .................................................................................................................. 18
USB characteristics ...................................................................................................................... 18
4.2.6
SDIO characteristics ..................................................................................................................... 19
4.2.7
4.2.8
Wi-Fi receiver characteristics ........................................................................................................ 20
LTE coexistence characteristics (LILY-W132 only) ......................................................................... 20
4.2.9
Wi-Fi transmitter characteristics ................................................................................................... 21
Mechanical specifications .......................................................................................... 22
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5.1
5.2
Dimensions ......................................................................................................................................... 22
Module weight ................................................................................................................................... 23
Qualification and approvals ...................................................................................... 24
6.1
6.2
Approvals ........................................................................................................................................... 24
European Union regulatory compliance .............................................................................................. 24
6.3
Safety Compliance .............................................................................................................................. 24
6.4
FCC and IC Compliance ...................................................................................................................... 24
6.4.1
IC compliance.............................................................................................................................. 24
6.4.2
Conformité aux normes d’IC ....................................................................................................... 24
6.4.3
6.4.4
FCC statement ............................................................................................................................ 25
Labeling requirements for end product ........................................................................................ 26
6.4.5
FCC and IC IDs ............................................................................................................................ 26
Antennas..................................................................................................................... 27
7.1
Antenna accessories ........................................................................................................................... 27
7.2
Approved antennas ............................................................................................................................ 28
7.2.1
Single band antennas .................................................................................................................. 28
7.2.2
Dual-band antennas .................................................................................................................... 31
Product handling ........................................................................................................ 32
8.1
Packaging ........................................................................................................................................... 32
8.1.1
Reels ........................................................................................................................................... 32
8.1.2
Tapes .......................................................................................................................................... 32
8.2
Moisture sensitivity levels .................................................................................................................... 33
8.3
Reflow soldering ................................................................................................................................. 33
8.4
ESD precautions.................................................................................................................................. 33
Labeling and ordering information........................................................................... 34
9.1
Product labeling.................................................................................................................................. 34
9.2
9.3
Explanation of codes........................................................................................................................... 35
Ordering information .......................................................................................................................... 35
Appendix .......................................................................................................................... 36
A Glossary ...................................................................................................................... 36
Related documents........................................................................................................... 37
Revision history ................................................................................................................ 37
Contact .............................................................................................................................. 38
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1 Functional description
1.1 Overview
The LILY-W1 series modules are ultra-compact Wi-Fi frontend modules including variants with or without an
internal antenna and LTE filter. It is designed for integration with an LTE radio application. The LILY-W1 module,
when integrated with an LTE radio application provides local area communication to Wi-Fi standards and cellular
backhaul to 2G, 3G or LTE standards. LILY-W1 supports IEEE 802.11b/g/n standards. It includes an integrated
MAC/Baseband processor, RF front-end components and band pass filter. The LILY-W132 with internal antenna
has a very sharp BAW filter specially designed for optimal LTE and Wi-Fi coexistence applications.
The modules will be radio type approved for Europe (CE), the United States (FCC), and Industry Canada (IC). The
modules are developed for reliable, high demanding industrial devices and applications and delivers high
performance.
1.2 Product features
Table 1: LILY-W1 series main features summary
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1.3 Block diagram
The LILY-W1 is available in the following two versions – LILY-W132 with antenna RF pin and a regular band pass
filter and LILY-W131 with internal antenna and an LTE coexistence band pass filter.
Figure 1: Block diagram of LILY-W1
1.4 Product description
The LILY-W1 series modules are ultra-compact Wi-Fi front-end modules with USB and SDIO host interfaces with
a module outline of only 14.0 x 10.0 mm. The module supports Wi-Fi IEEE 802.11b/g/n and is developed for
reliable, high demanding industrial devices and applications, and delivers high performance. LILY-W1 includes an
integrated MAC/Baseband processor and RF front-end components and supports station and micro access point
operation (up to 8 clients), 802.11 PHY data rates up to 72 Mbps, AES-CCMP and WAPI encryption. The module
has an internal one time programmable (OTP) memory, which for example, stores radio configuration and the
MAC address. The IO voltage level can be either 1.8 V or 3.3 V.
The module is available in the following two antenna versions:


LILY-W132 with an internal PIFA antenna and an integrated LTE BAW band pass filter for optimal LTE
and Wi-Fi coexistence applications.
LILY-W131 with an antenna pin for an external antenna and a regular band pass filter. The LILY-W131
version with external antenna supports antenna diversity via control signals for an external antenna
switch.
The LILY-W1 module series is specially designed to be integrated together with an LTE radio application. Their
combined features provide local area communication to Wi-Fi standards and cellular backhaul to 2G, 3G or LTE
standards. The LILY-W132 has an integrated LTE filter for optimal coexistence between Wi-Fi and LTE. For
designs where an LTE filter is not required or implemented externally, the LILY-W131 with antenna pin is
optimal.
The Wi-Fi modules are radio-type approved for Europe (CE), the United States (FCC), and Industry Canada (IC).
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Functional description
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1.5 Supported features
















Wi-Fi Standards IEEE 802.11b/g/n
Integrated high effective antenna or antenna pin
Equipped with a LTE coexistence BAW filter (only LILY-W132)
Extended operating temperature range of -40 °C to +85 °C
Selectable 1.8 V or 3.3 V IO levels
RF tuned from factory
Contains dual MAC addresses
Station and micro access point operation (up to 8 clients)
802.11 PHY data rates up to 72 Mbps
AES-CCMP hardware encryption
WAPI encryption supported by hardware
High transmission power and high sensitivity
Radio type approved for Europe
Approval for US (FCC) and Canada (IC)
Compliance with EMC standards
Medical approval
1.6 Wi-Fi performance
Feature
Description
Standards
IEEE 802.11b/g/n
Frequency bands
2.4 GHz, channel 1-11 (2.412 GHz - 2.462)
Channel bandwidth
20 MHz
Data rates
802.11b
1, 2, 5.5 and 11 Mbps
802.11g
6, 9, 12, 18, 24, 36, 48 and 54 Mbps
802.11n
MCS0-MCS7 (max 72.2Mbps)
Hardware supported Encryptions/Decryption
AES/CCMP, AES/CMAC, WAPI, WEP/TKIP
Maximum output power
19 dBm EIRP
Maximum sensitivity
-97 dBm EIRP
802.11n features
1-stream STBC reception
Short guard interval
RIFS on receive path for 802.11n packets
Greenfield Tx/Rx
Additional IEEE 802.11 support
802.11e quality of service
802.11h transmit power control
802.11i enhanced security
802.11k radio resource measurement**
802.11n block acknowledgment extension
802.11r fast hand-off for AP roaming**
Fully supports clients (stations) implementing IEEE
Wi-Fi direct connectivity
RF power including maximum antenna gain (3 dBi).
**
Supported by hardware but not supported by firmware currently.
Table 2: LILY-W1 series Wi-Fi characteristics
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1.7 MAC addresses
The LILY-W1 module series has two unique consecutive MAC addresses reserved for each module, from which
the first address is stored in the configuration memory during production. The first address is available in the
Data Matrix on the label (see chapter 9). The second consecutive MAC address is not stored in the configuration
memory but is reserved for usage with the module.
MAC address
Assignment
Last bit of MAC address
Example
Module1, address 1
Wi-Fi
D4:CA:6E:90:04:90
Module1, address 2
(free for use)
D4:CA:6E:90:04:91
Module2, address 1
Wi-Fi
D4:CA:6E:90:04:92
Module2, address 2
(free for use)
D4:CA:6E:90:04:93
Table 3: Example of MAC address assignment for two modules
The Engineering Samples of LILY-W1 has only one reserved MAC address. This Wi-Fi MAC address is
available in the Data Matrix on the label. The last bit of the Engineering Samples MAC addresses can be
either 0 or 1.
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2 Interfaces
2.1 Host interfaces
The module has two high speed host interfaces:
 USB (default): USB 2.0 device interface with LPM support
 SDIO: SDIO 2.0 device interface
Only one interface should be used in an application and the interface is selected by the USB/SDIO-n signal.
2.1.1 USB interface
USB is the default interface; USB/SDIO-n signal has an internal pull-up and need not be connected while using
the USB interface as mentioned in Pin definition section. The USB device interface is compliant with the Universal
Serial Bus Specification, Revision 2.0, April 27, 2000. A USB host uses the USB cable bus and the USB 2.0 device
interface to communicate with the module. Main features of the USB device interface include:




High/full speed operation (480/12 Mbps)
Suspend/host resume/device resume (remote wake-up)
Built-in DMA engine that reduces interrupt loads on the embedded processor and reduces the system
bus bandwidth requirement for serving the USB device operation
Supports Link Power Management (LPM), corresponding host resume, or device resume (remote
wakeup) to exit from L1 sleep state
The USB voltage levels depend on the USB speed. See Electrical specifications section for additional information.
2.1.2 SDIO interface
SDIO is activated by pulling down the USB/SDIO-n signal as mentioned in the Pin definition section. The module
supports an SDIO device interface that conforms to the industry standard SDIO Full-Speed card specification.
The module acts as the device on the SDIO bus. The host unit can access registers of the SDIO interface directly
and can access shared memory in the device through the use of BARs and a DMA engine. Main features of the
SDIO device interface include:
 On-chip memory used for CIS
 Supports 1-bit and 4-bit SDIO transfer modes at the full clock range of 0 to 50 MHz
 Special interrupt register for information exchange
 Allows card to interrupt host
SDIO 2.0 device interface (1-bit SDIO, 4-bit SDIO transfer modes at full clock range up to 50 MHz). All
mandatory SDIO commands are supported.
In 4-bit SDIO mode, data is transferred on all 4 data pins (SDIO_D[3:0]), and the interrupt pin is not available for
exclusive use as it is utilized as a data transfer line. Thus, if the interrupt function is required, a special timing is
required to provide interrupts. The 4-bit SDIO mode provides the highest data transfer possible, up to 100 Mbps.
The required pull up for SD interface on SD_CMD, SD_D [3:0] should be provided by the host. The pull up value
is between 10 k to 100k Ω according to the SDIO v3.0 specifications. 33 Ω inline resistors may be needed to
help with signal integrity. The SDIO signals levels are selectable according to the VCC_IO 1.8/3.3 voltage levels as
mentioned in the Power supply interfaces section.
See LILY-W1 series System Integration Manual [2] for more information about SDIO design.
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2.2 Antenna interfaces
The LILY-W1 series supports either an internal antenna (LILY-W132) or external antennas connected through an
antenna pin (LILY-W131).
2.2.1 Internal antenna
The LILY-W132 has an internal (embedded) 2.4 GHz PIFA antenna. The internal antenna is a PIFA antenna
specifically designed and optimized for the LILY form factor.
Keep a minimum clearance of 5 mm between the antenna and the casing. Keep a minimum 10 mm free space
from metal around the antenna including the area below. If a metal enclosure is required, use LILY-W131 and an
external antenna.
It is recommended to place the LILY-W132 module so that the internal antenna is in the corner of the host PCB
(the corner closest to Pin 11 should be in the corner). The antenna side (short side closest to the antenna),
positioned along one side of the host PCB ground plane is the second best option. It is beneficial to have a large
solid ground plane on the host PCB and have a good grounding on the LILY-W132 module. Minimum ground
plane size is 24x30 mm but recommended is more than 50x50 mm.
The LILY-W132 module has an integrated LTE BAW band pass filter for optimal LTE and Wi-Fi coexistence
applications.
The ANT signal is not available on the solder pins of the LILY-W132 module and no antenna diversity
functionality is available.
2.2.2 External RF antenna interface
The LILY-W131 module has an antenna signal (ANT) pin with a characteristic impedance of 50 Ω for using an
external antenna. The antenna signal supports both Tx and Rx.
The external antenna, for example, can be an SMD antenna (or PCB integrated antenna) on the host board. An
antenna connector for using an external antenna via a coaxial cable could also be implemented. A cable antenna
might be necessary to use if the module is mounted in a shielded enclosure such as a metal box or cabinet.
An external antenna connector (U.FL. connector) reference design (see LILY-W131 Antenna Connector Reference Design [5]) are available and must be followed to comply with the LILY-W1 FCC/IC modular approvals.
Also see and the list of approved antennas (section 7.2).
The LILY-W131 module also supports an antenna diversity solution with an external antenna switch (see Figure
2). The switch is controlled by the ANT_SEL and the inverse ANT_SEL-n control signals are controlled from
LILY-W131. See LILY-W1 series System Integration Manual [2] for more information about antenna switch
design.
Figure 2: LILY-W131 antenna diversity solution with an external antenna switch controlled by LILY-W131
The LILY-W131 can be used in coexistence with a LTE modem. An external additional LTE band pass filter may be
required depending on the location of the antennas. Refer to LILY-W1 series System Integration Manual [2] for a
list of suitable LTE filters.
The FCC/IC modular approvals are not including an additional LTE filter or an antenna switch design.
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2.3 Power supply interfaces
The power for LILY-W1 series modules is supplied through VCC and VCC_IO pins by DC voltage.
The system power supply circuit must be able to support peak power (add 20% as margin over listed type
current consumption), as during operation, the current drawn from VCC and VCC_IO can vary
significantly based on the power consumption profile of the Wi-Fi technology.
The separate VCC_IO pin enables integration of the module in either a 1.8 V or 3.3 V application without any
level converters. The module performs calibration when the device is powered up.
2.4 Power mode interfaces
The LILY-W1 series modules support external power management control through the Power Down (PD-n), Host
wake up (HOST_WKUP) and the Wake up (WAKE_UP) signals.
2.4.1 Reset
The module is reset to its default operating state under the following conditions:


Internal reset: The module is reset, and the internal CPU starts the boot sequence when the following
internal reset events occur:
o Power-on reset (POR): Device receives power supplies rise (triggers internal POR circuit)
o Software/Firmware reset: Host driver issues a soft reset
External pin assertion (PD-n): The module is reset, and the internal CPU begins the boot sequence when
the PD-n input pin transitions from low to high following the power-up sequence. See Power down
section for more information.
2.4.2 Power down
For applications that do not use Wi-Fi, the device can be put into a low-leakage mode of operation using the
one of the following methods:

Using PD-n pin: The power-down state provides the lowest leakage mode of operation. Assert PD-n low
to enter power-down. This must be met to enter a power-down state.
 All rails powered off: Alternatively, VCC and VCC_IO can be powered off. In this case, the state of the
PD-n pin is irrelevant.
During power-up the PD-n signal should be low or following the VCC signal.
2.4.3 Sleep
The module Power Save Mode (PSM) implementation is achieved through the coordination of the driver,
firmware, and hardware signals HOST_WKUP and WAKE_UP. See LILY-W1 series System Integration Manual [2]
for more information.
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3 Pin definition
3.1 Pin assignment
Figure 3: LILY-W1 series pin assignment (top view).
The GND pins for LILY-W1 module are located on the bottom side and are not visible in the Figure 3. See the
Dimensions section for more information about these GND pins.
The signals are available on castellation pins on the edge of the PCB. The ANT signals are not available on
the LILY-W132 module with internal antenna.
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Pin definition
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LILY-W1 series - Data Sheet
No.
Name
Voltage level
I/O
Description
SDIO_D1
VCC_IO
I/O
SDIO 4-bit Mode: Data line Bit[1]
Remarks
SDIO 1-bit Mode: Interrupt
SDIO SPI Mode: Interrupt
SDIO_D3
VCC_IO
I/O
SDIO 4-bit Mode: Data line Bit[3]
SDIO 1-bit Mode: Reserved
SDIO SPI Mode: Card select (active low)
SDIO_D0
VCC_IO
I/O
SDIO 4-bit Mode: Data line Bit[0]
SDIO 1-bit Mode: Data line
SDIO SPI Mode: Data output
SDIO_CMD/
USB_VBUS_ON
VCC_IO
I/O
SDIO 4-bit Mode: Command/response
(input/output)
SDIO 1-bit Mode: Command line
Pin is also used by USB as
USB_VBUS_ON: USB VBus On, USB
power valid indication.
SDIO SPI Mode: Data input
USB Mode: USB_VBUS_ON (input)
SDIO_CLK
VCC_IO
SDIO 4-bit Mode: Clock input
SDIO 1-bit Mode: Clock input
SDIO SPI Mode: Clock input
GND
GND
N/A
Ground
SDIO_D2
VCC_IO
I/O
SDIO 4-bit Mode: Data line Bit[2] or
read wait (optional)
SDIO 1-bit Mode: Read wait (optional)
SDIO SPI Mode: Reserved
VCC_IO
VCC_IO
IO voltage supply, 1.8 or 3.3 V
VCC
VCC
Module main voltage supply 3.0 - 3.6 V
10
GND
GND
N/A
Ground
11
GND
GND
N/A
Ground
12
ANT
RF
I/O
Antenna signal
13
GND
GND
N/A
Ground
14
PD-n
VCC
(3.3 V)
Power down, active low
Internal pull-up.
Notice 3.3 V pin.
15
ANT_SEL
VCC
(3.3 V)
External antenna selection signal for
antenna diversity if two antennas are
used.
Only available on LILY-W131.
Inverted version of ANT_SEL-n.
Notice 3.3 V pin.
16
ANT_SEL-n
VCC
(3.3 V)
External Inverted antenna selection
signal for antenna diversity if two
antennas are used.
Only available on LILY-W131.
Inverted version of ANT_SEL.
Notice 3.3 V pin.
17
WAKE_UP
1.8 V
Wake up input signal.
Programmable pull-up or pulldown.
Notice 1.8 V pin.
18
Reserved
Reserved
19
HOST_WKUP
VCC_IO
Output wake up signal to host.
20
Reserved
Reserved
21
GND
GND
N/A
Ground
Active high
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Only available on LILY-W131
Do not connect.
Do not connect.
Pin definition
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LILY-W1 series - Data Sheet
No.
Name
Voltage level
I/O
Description
Remarks
22
USB/SDIO-n
1.8 V
Select host interface.
Low level activates the SDIO
interface.
High level activates the USB
interface. Internal pull-up (USB is
default).
Notice 1.8 V pin.
23
USB_DP
V_USB
I/O
USB Serial Differential Data Positive.
The USB voltage levels depends on
the USB speed, see the USB
interface and the Electrical
specifications sections.
24
USB_DM
V_USB
I/O
USB Serial Differential Data Negative.
The USB voltage levels depends on
the USB speed, see the USB
interface and the Electrical
specifications sections.
25
GND
GND
N/A
Ground
Table 4: LILY-W1 series pin description
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4 Electrical specifications
Stressing the device above one or more of the ratings listed in the Absolute maximum rating
section may cause permanent damage. These are stress ratings only. Operating the module at
these or at any conditions other than those specified in the Operating conditions section of this
document should be avoided. Exposure to absolute maximum rating conditions for extended
periods may affect device reliability.
Operating condition ranges define those limits within which the functionality of the device is guaranteed.
Where application information is given, it is advisory only and does not form part of the specification.
4.1 Absolute maximum ratings
Symbol
Description
Condition
Min
Max
Unit
VCC
Module supply voltage
Input DC voltage at VCC pin
4.0
VCC_IO
IO voltage supply
Input DC voltage at VCC_IO pin
2.2
4.0
1.8 V mode
3.3 V mode
Table 5: Absolute maximum ratings
4.1.1 Maximum ESD ratings
Parameter
Maximum
Unit
Remarks
ESD immunity
±6000
Indirect discharge to a coupling plane
IEN 61000-4-2
ESD immunity for ANT pin
±6000
Contact Discharge according to IEC 61000-4-2
ESD sensitivity for ANT pin
300
Human Body Model (HBM) according to JESD22-A114
Class 1A
ESD sensitivity for all pins except ANT pin
±1000
Human Body Model (HBM) according to JESD22-A114
Class 1C
Table 6: Maximum ESD ratings
4.2 Operating conditions
4.2.1 Temperature range
Parameter
Minimum
Maximum
Unit
Storage temperature
-40
+85
°C
Operating temperature
-40
+85
°C
Table 7: Temperature range
4.2.2 Power supply
Read the safety notes in section Guidelines for Efficient and Safe Use before using the modules.
Symbol
Parameter
Min.
Typ
Max.
Unit
VCC
Supply voltage
3.00
3.30
3.60
VCC_IO
Digital IO supply voltage
1.8 V mode
1.62
1.80
1.98
3.3 V mode
3.00
3.30
3.60
Table 8: Power supply voltage
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4.2.3 Power consumption
4.2.3.1
SDIO mode
IVCC (VCC = 3.3 V, VCC_IO = 3.3 V, Tamb = 25 °C)
Mode
State
General
Power Down
Power*
Typ**
TBD
Start-up
Sleep
Power Save
Connected Receive
Ch-6 (2437 MHz)
Connected Transmit
Ch-6 (2437 MHz)
mA
TBD
0.09
1.5
mA
mA
80
mA
Associated DTIM = 3
0.57
80
mA
Associated DTIM = 5
802.11b
80
Data Rate = 1 Mbit/s
0.33
70
mA
mA
802.11g
Data Rate = 11 Mbit/s
Rate = 6 Mbit/s
72
71
mA
mA
802.11n
Rate = 54 Mbit/s
MCS0
73
70
mA
mA
802.11b
MCS7
Data Rate = 1 Mbit/s
7 dBm
73
260
mA
mA
14 dBm
295
mA
16 dBm
7 dBm
320
260
mA
mA
14 dBm
16 dBm
295
325
mA
mA
7 dBm
14 dBm
260
300
mA
mA
16 dBm
335
mA
7 dBm
14 dBm
265
305
mA
mA
16 dBm
7 dBm
335
260
mA
mA
14 dBm
16 dBm
300
335
mA
mA
7 dBm
265
mA
14 dBm
16 dBm
315
335
mA
mA
802.11g
Data Rate = 6 Mbit/s
Data Rate = 54 Mbit/s
802.11n
MCS0
MCS7
**
Unit
Not associated
Associated DTIM = 1
Data Rate = 11 Mbit/s
Max**
Conducted output power setting not including antenna gain.
IVCC_IO is not included. IVCC_IO depends on the application design but a typ value is 1.5mA.
Table 9: Power consumption in SDIO mode
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4.2.3.2 USB mode
IVCC (VCC = 3.3 V, VCC_IO = 3.3 V, Tamb = 25 °C)
Mode
General
State / Modulation
Power Down
Data Rate
Power
setting*
Typ**
TBD
Start-up
Sleep***
Power Save***
Connected Receive
Ch-6 (2437 MHz)
Connected Transmit
Ch-6 (2437 MHz)
Max**
Unit
mA
TBD
Not associated
Associated DTIM = 1
0.26
1.9
mA
mA
85
mA
Associated DTIM = 3
Associated DTIM = 5
0.85
0.66
85
85
mA
mA
802.11b
Data Rate = 1 Mbit/s
84
mA
802.11g
Data Rate = 11 Mbit/s
Rate = 6 Mbit/s
84
82
mA
mA
802.11n
Rate = 54 Mbit/s
MCS0
84
82
mA
mA
802.11b
MCS7
1 Mbit/s
7 dBm
84
270
mA
mA
14 dBm
16 dBm
305
335
mA
mA
7 dBm
270
mA
14 dBm
16 dBm
305
335
mA
mA
7 dBm
14 dBm
270
320
mA
mA
16 dBm
7 dBm
340
280
mA
mA
14 dBm
320
mA
16 dBm
7 dBm
340
270
mA
mA
14 dBm
16 dBm
320
340
mA
mA
7 dBm
14 dBm
275
320
mA
mA
16 dBm
340
mA
11 Mbit/s
802.11g
6 Mbit/s
54 Mbit/s
802.11n
MCS0
MCS7
Conducted output power setting not including antenna gain.
**
IVCC_IO is not included. IVCC_IO depends on the application design but a typ value is 1.5mA.
***
USB suspend mode.
Table 10: Power consumption in USB mode
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4.2.4 I/O DC characteristics
The HOST_WKUP and CLK_REQ signals are supplied with the VCC_IO pin and you can select either 1.8 V or 3.3
V. (VCC = 3.3 V, Tamb = 25 °C)
Min
Typ
Max
Unit
LOW level input voltage
-0.4
0.3*VCC_IO
HIGH level input voltage
LOW level output voltage
0.7*VCC_IO
VCC_IO+0.4
0.4
VOH
V3.3VIL
HIGH level output voltage
3.3 V LOW level input voltage
VCC_IO-0.4
-0.4
0.3*VCC
V3.3VIH
3.3 V HIGH level input voltage
0.7*VCC
VCC+0.4
RPD-n
V3.3VOL
PD-n internal PU
3.3 V LOW level output voltage
47
0.4
kΩ
V3.3VOH
V1.8VIL
3.3 V HIGH level output voltage
1.8 V LOW level input voltage
VCC-0.4
-0.4
0.4
V1.8VIL
R1.8VI
1.8 V HIGH level input voltage
1.8 V input pin internal PU / PD
1.4
TBD
2.0
kΩ
VHYS
Input hysteresis
100
mV
Signals
Symbol
Description
VCC_IO levels
HOST_WKUP,
CLK_REQ
VIL
VIH
VOL
3.3 V input PD-n
3.3 V output
ANT_SEL, ANT_SEL-n
1.8 V input
WAKE_UP, USB/SDIO-n
Table 11: I/O signals DC characteristics
4.2.5 USB characteristics
(VCC = 3.3 V, Tamb = 25 °C)
Signals
Symbol
Parameter
Min
Typ
Max
USB power valid indication
USB_VBUS_ON
VVBUSIL
USB_VBUS_ON LOW level input voltage
-0.4
0.3*VCC_IO
VVBUSIH
VIL
USB_VBUS_ON HIGH level input voltage
LOW level input voltage
0.7*VCC_IO
VCC_IO+0.4
0.8
VIH
HIGH level input voltage (driven)
2.0
VIHZ
VCM
HIGH level voltage (floating)
Differential common mode range
2.7
0.8
3.6
2.5
Output levels for Low/Full
Speed
USB_DP/USB_DM
VOL
VOH
LOW level output voltage
HIGH level output voltage (driven)
2.8
0.3
3.6
VCRS
2.0
VHSSQ
Output signal crossover voltage
High-speed squelch detection threshold
(differential signal amplitude)
1.3
Input Levels for High Speed
USB_DP/USB_DM
100
150
mV
525
625
mV
-50
500
mV
Input levels for Low/Full
Speed
USB_DP/USB_DM
VHSOI
High-speed disconnect detection threshold
(differential signal amplitude)
High-speed data signaling common mode
voltage range
High-speed idle level
-10
10
mV
VHSOH
VHSOL
High-speed data signaling high
High-speed data signaling low
360
-10
440
10
mV
mV
VCHIRPJ
Chirp J level (differential voltage)
700
1100
mV
VCHIRPK
TFSDRAT
Chirp K level (differential voltage)
Full speed data rate
-900
12
-500
mV
Mb/s
THSDRAT
High speed data rate
480
Mb/s
VHSDSC
VHSCM
Output Levels for High
Speed
USB_DP/USB_DM
Data rate
Unit
Table 12: USB characteristics
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4.2.6 SDIO characteristics
The SDIO signals are supplied with the VCC_IO pin and you can select either 1.8 V or 3.3 V.
(VCC = 3.3 V, Tamb = 25 °C)
Signals
Symbol
Parameter
Min
Typ.
Max
Unit
VCC_IO levels
SDIO_D[0..3],
SDIO_CMD,
SDIO_CLK,
VIL
LOW level input voltage
-0.4
0.3*VCC_IO
VIH
VOL
HIGH level input voltage
LOW level output voltage
0.7*VCC_IO
VCC_IO+0.4
0.4
VOH
VHYS
HIGH level output voltage
Input hysteresis
VCC_IO-0.4
100
mV
25
MHz
50
MHz
Clock frequency
fNS
fHS
Clock frequency normal
speed
Clock frequency high speed
Table 13: SDIO characteristics
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4.2.7 Wi-Fi receiver characteristics
Conducted RF receiving sensitivity is measured on the U.FL connector on the evaluation board of the EVK-LILYW131 [3] (connected to antenna pin ANT of LILY-W131).
(VCC = 3.3 V, VVCC_IO = 3.3 V, Tamb = 25 °C).
Parameter
Modulation
IEEE limit
Typ
Unit
Receive
sensitivity
802.11b, Rate = 1 Mbit, PER ≤ 8%
802.11b, Rate = 11 Mbit, PER ≤ 8%
-76
-76
-94
-85
dBm
dBm
802.11g, Rate = 6 Mbit, PER ≤ 10%
-82
-87
dBm
802.11g, Rate = 54 Mbit, PER ≤ 10%
802.11n, Rate = 6.5 Mbit, PER ≤ 10%
-65
-82
-70
-86
dBm
dBm
802.11n, Rate = 65 Mbit, PER ≤ 10%
-64
-67
dBm
Table 14: Wi-Fi receiver characteristics
4.2.8 LTE coexistence characteristics (LILY-W132 only)
Degradation of sensitivity when coexisting with an LTE device that transmits 24 dBm output power.
(VCC = 3.3 V, VVCC_IO = 3.3 V, Tamb = 25 °C).
Parameter
Modulation
802.11b, Rate = 1 Mbit, PER ≤ 8%
Receive
sensitivity
802.11b, Rate = 11 Mbit, PER ≤ 8%
degradation 802.11g, Rate = 6 Mbit, PER ≤ 10%
802.11g, Rate = 54 Mbit, PER ≤ 10%
802.11n, Rate = 6.5 Mbit, PER ≤ 10%
802.11n, Rate = 65 Mbit, PER ≤ 10%
Attenuation between
LILY-W132/LTE device
10 dB
LTE device band 7, 24 dBm
LILY-W132 EARFCN EARFCN
EARFCN
Channel
20750
21100
21449
1/6/11
Unit
dB
dB
dB
dB
dB
dB
Table 15: LILY-W132 receive sensitivity degradation with LTE coexistence
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4.2.9 Wi-Fi transmitter characteristics
Conducted RF transmit characteristics is measured on the U.FL connector on the evaluation board of the
EVK-LILY-W131 [3] (connected to antenna pin ANT of LILY-W131).
(VCC = 3.3 V, VVCC_IO = 3.3 V, Tamb = 25 °C).
Parameter
Transmit output
power
Modulation
802.11b
Data Rate
Data Rate = 1 Mbit/s
IEEE EVM limit = 35%
Data Rate = 11 Mbit/s
IEEE EVM limit = 35%
802.11g
Data Rate = 6 Mbit/s
IEEE EVM limit = -5dB
Data Rate = 54 Mbit/s
IEEE EVM limit = -25dB
802.11n
MCS0
IEEE EVM limit = -5dB
MCS7
IEEE EVM limit = -28dB
Power
setting
[dBm]
EVM
[+%/-dB]
10
Typ*
7.4
Unit
dBm
14
10
14.3
dBm
17
10
10
16.9
7.4
dBm
dBm
14
17
10
10
14.4
16.9
dBm
dBm
14
-28
-23
7.3
14.1
dBm
dBm
17
-20
-35
16.7
7.5
dBm
dBm
14
-30
14.0
dBm
17
-28
-28
16.7
7.3
dBm
dBm
14
17
-23
-20
14.0
16.7
dBm
dBm
14
-34
-31
7.3
14.1
dBm
dBm
-29
16
15.8
dBm
Measurement tolerance ±1.5 dB. Regional power limitation can reduce the maximum output power (especially on channels close to band
edges).
Table 16: Wi-Fi transmitter characteristics
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LILY-W1 series - Data Sheet
5 Mechanical specifications
5.1 Dimensions
The dimensions for LILY-W131 and LILY-W132 are the same except the antenna on LILY-W132.
Figure 4: LILY-W131 dimensions
The 12 GND pins in the middle of the bottom side of module are not in the center of the module.
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LILY-W1 series - Data Sheet
Figure 5: LILY-W132 dimensions
The 12 GND pins in the middle of the bottom side of module are not in the center of the module.
5.2 Module weight
Module
Typ
Unit
LILY-W131
<1
LILY-W132
<1
Table 17: Module weight
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6 Qualification and approvals
6.1 Approvals
The LILY-W1 series modules comply with the "Directive 2011/65/EU of the European Parliament and
the Council on the Restriction of Use of certain Hazardous Substances in Electrical and Electronic
Equipment" (RoHS).
LILY-W1 series modules are RoHS compliant. No natural rubbers, hygroscopic materials, or materials
containing asbestos are employed.
6.2 European Union regulatory compliance
The LILY-W1 module conforms to the product specifications listed in Table 18. See the LILY-W1 Declaration of
Conformity [4] for more information.
R&TTE Directive 1999/5/EC
Category
Standard
Effective use of frequency spectrum
EN 300 328 V1.9.1
EMC
EN 301 489-1
EN 301 489-17
Health and safety
EN 60950-1 / IEC 60950-1
EN 62311
EN 62479
Medical Electrical Equipment
Prevention (RoHS Article 4.1)
EN 60601-1-2
EN 50581
Table 18: LILY-W1 ETSI conformity
6.3 Safety Compliance
In order to fulfill the safety standard EN 60950-1, the unit must be supplied by a limited power source.
6.4 FCC and IC Compliance
6.4.1 IC compliance
This device complies with Industry Canada license-exempt 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.
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 chosen in such a way that the equivalent
isotropically radiated power (e.i.r.p.) is not more than that is necessary for successful communication.
This equipment complies with IC RSS-102 radiation exposure limits set forth for an uncontrolled environment.
This equipment should be installed and operated with a minimum distance of 20 cm between the radiator and
your body.
6.4.2 Conformité aux normes d’IC
Cet appareil est conforme à la(aux) norme(s) RSS sans licence d’Industry Canada.
Son utilisation est soumise aux deux conditions suivantes :
1. Cet appareil ne doit pas causer d’interférences et
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LILY-W1 series - Data Sheet
2. il doit accepter toutes interférences reçues, y compris celles susceptibles d’avoir des effets indésirables
sur son fonctionnement.
Conformément aux réglementations d’Industry Canada, cet émetteur radio ne peut fonctionner qu’à l’aide
d’une antenne dont le type et le gain maximal (ou minimal) ont été approuvés pour cet émetteur par Industry
Canada. Pour réduire le risque d’interférences avec d’autres utilisateurs, il faut choisir le type d’antenne et son
gain de telle sorte que la puissance isotrope rayonnée équivalente (p.i.r.e) ne soit pas supérieure à celle requise
pour obtenir une communication satisfaisante.
Cet équipement respecte les limites d’exposition aux rayonnements IC RSS-102 définies pour un environnement
non contrôlé. Il doit être installé et utilisé en maintenant une distance minimum de 20 cm entre le radiateur et
votre corps.
6.4.3 FCC statement
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.
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 the 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.
The LILY-W1 module is for OEM integrations only. The end-user product will be professionally installed in such a
manner that only the authorized antennas are used.
For LILY-W131 is an external antenna connector (U.FL. connector) reference design (see LILY-W131 Antenna
Connector - Reference Design [5]) available and must be followed to comply with the LILY-W1 FCC/IC modular
approval.
Any changes or modifications NOT explicitly APPROVED by u-blox could cause the module to cease to comply
with FCC rules part 15, and thus void the user's authority to operate the equipment.
6.4.3.1
Cautions
Any changes or modifications could cause the module to cease to comply with
FCC rules part 15 and thus void the user's authority to operate the equipment.
§15.407 statement; in case of absence of information to transmit or operational failure, the
LILY-W1 module will automatically discontinue transmission.
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LILY-W1 series - Data Sheet
6.4.4 Labeling requirements for end product
For an end product using the LILY-W1 modules there must be a label containing, at least, the following
information:
This device contains
FCC ID: XPYLILYW1
IC: 8595A-LILYW1
The label must be affixed on an exterior surface of the end product such that it will be visible upon inspection in
compliance with the modular approval guidelines developed by the FCC.
In accordance with 47 CFR § 15.19, the end product shall bear the following statement in a conspicuous
location on the device:
"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."
When the device is so small or for such use that it is not practicable to place the statement above on it, the
information shall be placed in a prominent location in the instruction manual or pamphlet supplied to the user
or, alternatively, shall be placed on the container in which the device is marketed.
In case, where the final product will be installed in locations where the end-user is not able to see the FCC ID
and/or this statement, the FCC ID and the statement shall also be included in the end-product manual.
6.4.5 FCC and IC IDs
Model
FCC ID
IC ID
LILY-W131
XPYLILYW1
8595A-LILYW1
LILY-W132
XPYLILYW1
8595A-LILYW1
Table 19: FCC and IC IDs for different models of the LILY-W1 series
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LILY-W1 series - Data Sheet
7 Antennas
This chapter gives an overview of the different external antennas that can be fitted to the LILY-W1 series
module.
This radio transmitter IC: 8595A-LILYW1 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.
Cet émetteur radio IC: 8595A-LILYW1 été approuvé par Industry Canada pour fonctionner avec
les types d’antenne énumérés ci-dessous avec le gain maximum autorisé et l’impédance
nécessaire pour chaque type d’antenne indiqué. Les types d’antenne ne figurant pas dans cette
liste et ayant un gain supérieur au gain maximum indiqué pour ce type-là sont strictement
interdits d’utilisation avec cet appareil.
For each antenna, the "Approvals" field defines in which test reports the antenna is included. Definitions of the
«Approvals» field are:

FCC - The antenna is included in the FCC test reports and thus approved for use in countries that accept
the FCC radio approvals, primarily US.
 IC - The antenna is included in the IC (Industrie Canada) test reports and thus approved for use in
countries that accept the IC radio approvals, primarily Canada.
 R&TTE - The antenna is included in the R&TTE test reports and thus approved for use in countries that
accept the R&TTE radio approvals, primarily the European countries.
In general, antennas with SMD connection, Reverse Polarity SMA connector or U.FL connector are included in
FCC, IC and R&TTE radio tests. The antennas with SMA connector are included in R&TTE radio tests but not in
the FCC or IC due to FCC/IC regulations.
The external antennas are connected to the board through U.FL connectors. Some antennas are connected
directly to the U.FL connector of the board while some are connected using an SMA or reversed polarity SMA
connector through a short U.FL to SMA or reversed polarity SMA adapter cable. See LILY-W1 series System
Integration Manual [2] for information about U.FL connector design.
7.1 Antenna accessories
Name
U.FL to SMA adapter cable
Connector
U.FL and SMA jack (outer thread and pin receptacle)
Impedance
Minimum cable loss
50 Ω
0.5 dB, The cable loss must be above the minimum cable loss
to meet the regulatory requirements
Comment
The SMA connector can be mounted in a panel.
See LILY-W131 Antenna Connector - Reference Design [5] for
information how to integrate the U.FL connector.
R&TTE
Approval
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LILY-W1 series - Data Sheet
Name
U.FL to Reverse Polarity SMA adapter cable
Connector
U.FL and Reverse Polarity SMA jack (outer thread and pin)
Impedance
Minimum cable loss
50 Ω
0.5 dB, The cable loss must be above the minimum cable loss
to meet the regulatory requirements
Comment
The Reverse Polarity SMA connector can be mounted in a
panel.
See LILY-W131 Antenna Connector - Reference Design [5] for
information how to integrate the U.FL connector. It is
required to followed this reference design to comply with the
LILY-W1 FCC/IC modular approvals.
FCC, IC and R&TTE
Approval
7.2 Approved antennas
7.2.1 Single band antennas
Ex-IT 2400 RP-SMA 28-001
Manufacturer
ProAnt
Polarization
Gain
Vertical
+3.0 dBi
Impedance
50 Ω
Size
Ø 12.0 x 28.0 mm
Reverse Polarity SMA plug (inner thread and pin receptacle). To be mounted on the U.FL to
Reverse Polarity SMA adapter cable.
This antenna requires to be mou ted on a metal ground plane for best performance.
An SMA version antenna is also available but not recommended for use (Ex-IT 2400 SMA 28001).
FCC, IC, and R&TTE
Connector
Comment
Approval
ANT-2.4-CW-RH-RPS
Manufacturer
Polarization
Linx
Vertical
Gain
Impedance
-1.0 dBi
50 Ω
Size
Ø 7.4 x 27.0 mm
Connector
Comment
Approval
Reverse Polarity SMA plug (inner thread and pin receptacle). To be mounted on the U.FL to
Reverse Polarity SMA adapter cable.
An SMA version antenna is also available but not recommended for use (ANT-2.4-CW-RHSMA).
FCC, IC, and R&TTE
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LILY-W1 series - Data Sheet
Ex-IT 2400 MHF 28
Manufacturer
ProAnt
Polarization
Gain
Vertical
+2.0 dBi
Impedance
50 Ω
Size
Cable length
Ø 12.0 x 28.0 mm
100 mm
Connector
U.FL. connector
This antenna requires to be mou ted on a metal ground plane for best
performance.
To be mounted on a U.FL connector.
See LILY-W131 Antenna Connector - Reference Design [5] for
information how to integrate the U.FL connector. It is required to
followed this reference design to comply with the LILY-W1 FCC/IC
modular approvals.
FCC, IC, and R&TTE
Comment
Approval
Ex-IT 2400 RP-SMA 70-002
Manufacturer
Polarization
ProAnt
Vertical
Gain
Impedance
+3.0 dBi
50 Ω
Size
Ø 10 x 83 mm
Connector
Reverse Polarity SMA plug (inner thread and pin receptacle)
To be mounted on a U.FL to Reverse Polarity SMA adapter cable . An SMA
version antenna is also available but not recommended for use (Ex-IT 2400
SMA 70-002).
See LILY-W131 Antenna Connector - Reference Design [5] for information
how to integrate the U.FL connector. It is required to followed this reference
design to comply with the LILY-W1 FCC/IC modular approvals.
FCC, IC, and R&TTE
Comment
Approval
Ex-IT 2400 MHF 70-001
Manufacturer
Polarization
ProAnt
Vertical
Gain
Impedance
+3.0 dBi
50 Ω
Size
Cable length
Ø 9.4 x 70.5 mm
100 mm
Connector
U.FL. connector
Comment
To be mounted on a U.FL connector.
See LILY-W131 Antenna Connector - Reference Design [5] for information how to
integrate the U.FL connector. It is required to followed this reference design to comply
with the LILY-W1 FCC/IC modular approvals.
Approval
FCC, IC, and R&TTE
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LILY-W1 series - Data Sheet
InSide-2400
Manufacturer
ProAnt
Gain
Impedance
+3.0 dBi
50 Ω
Size
27 x 12 mm (triangular)
Cable length
Connector
100 mm
U.FL. connector
Comment
Should be attached to a plastic enclosure or part for best performance.
To be mounted on a U.FL connector.
See LILY-W131 Antenna Connector - Reference Design [5] for information how to
integrate the U.FL connector. It is required to followed this reference design to comply
with the LILY-W1 FCC/IC modular approvals.
FCC, IC, and R&TTE
Approval
FlatWhip-2400
Manufacturer
Gain
ProAnt
+3.0 dBi
Impedance
Size
50 Ω
Ø 50.0 x 30.0 mm
Connector
SMA plug (inner thread and pin)
Comment
To be mounted on the U.FL to SMA adapter cable.
See LILY-W131 Antenna Connector - Reference Design [5] for information how to
integrate the U.FL connector.
R&TTE
Approval
Outside-2400
Manufacturer
Gain
ProAnt
+3.0 dBi
Impedance
50 Ω
Size
Cable length
36.0 x 18.0 x 16.0 mm
70 mm
Connector
Comment
U.FL. connector
To be mounted on a U.FL connector.
See LILY-W131 Antenna Connector - Reference Design [5] for information how to
integrate the U.FL connector. It is required to followed this reference design to comply
with the LILY-W1 FCC/IC modular approvals.
FCC, IC, and R&TTE
Approval
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Antennas
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LILY-W1 series - Data Sheet
7.2.2 Dual-band antennas
InSide-WLAN
Manufacturer
Gain
ProAnt
+3.0 dBi
Impedance
50 Ω
Size
Cable length
27 x 12 mm (triangular)
100 mm
Connector
Comment
U.FL. connector
Should be attached to a plastic enclosure or part for best performance.
Dual-band (2.4 GHz / 5 GHz) antenna to be mounted on a U.FL connector.
See LILY-W131 Antenna Connector - Reference Design [5] for information how to
integrate the U.FL connector. It is required to followed this reference design to
comply with the LILY-W1 FCC/IC modular approvals.
FCC, IC, and R&TTE
Approval
InSide-WLAN Square
Manufacturer
ProAnt
Gain
Impedance
+3.0 dBi
50 Ω
Size
24x22x1 mm with mounting hole
Cable length
Connector
100 mm
U.FL. connector
Comment
Should be attached to a plastic enclosure or part for best performance.
Dual-band (2.4 GHz / 5 GHz) antenna to be mounted on a U.FL
connector.
See LILY-W131 Antenna Connector - Reference Design [5] for
information how to integrate the U.FL connector. It is required to followed
this reference design to comply with the LILY-W1 FCC/IC modular
approvals.
FCC, IC, and R&TTE
Approval
Ex-IT WLAN RPSMA
Manufacturer
ProAnt
Type
Polarization
½ wave dipole dual-band antenna
Vertical
Gain
+3 dBi
Impedance
Size
50 Ω
107 mm (Straight)
Connector
Comment
Reverse Polarity SMA plug (inner thread and pin receptacle)
To be mounted on a U.FL to SMA or reverse polarity SMA adapter cable.
See LILY-W131 Antenna Connector - Reference Design [5] for information how
to integrate the U.FL connector. It is required to followed this reference design to
comply with the LILY-W1 FCC/IC modular approvals.
FCC, IC, and R&TTE
Approval
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Antennas
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LILY-W1 series - Data Sheet
8 Product handling
8.1 Packaging
The LILY-W1 series modules are delivered as hermetically sealed, reeled tapes to enable efficient production,
production lot set-up and tear-down. For more information about packaging, see the u-blox Package
Information Guide [1].
8.1.1 Reels
LILY-W1 modules are deliverable in quantities of 500 pieces on a reel. The modules are delivered on the reel
Type A3 as described in u-blox Package Information Guide [1].
8.1.2 Tapes
Figure 6 shows the position and orientation of LILY-W132 modules as they are delivered on tape. The
dimensions of the tapes are specified in Figure 7. LILY-W131 also has the same orientation as shown in Figure 6
and is delivered on tape.
Figure 6: Orientation of LILY-W132 modules on tape
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LILY-W1 series - Data Sheet
Figure 7: LILY-W1 series tape dimensions
8.2 Moisture sensitivity levels
The LILY-W1 series modules are Moisture Sensitive Devices (MSD) in accordance with the
IPC/JEDEC specification.
The Moisture Sensitivity Level (MSL) relates to the required packaging and handling precautions. The LILY-W1
series modules are rated at MSL level 4. For more information regarding moisture sensitivity levels, labeling and
storage, see the u-blox Package Information Guide [1].
For MSL standards, see IPC/JEDEC J-STD-020, which can be downloaded from www.jedec.org.
8.3 Reflow soldering
Reflow profiles are to be selected according to u-blox recommendations. See LILY-W1 series System Integration
Manual [2] for more information.
Failure to observe these recommendations can result in severe damage to the device.
8.4 ESD precautions
The LILY-W1 series modules contain highly sensitive electronic circuitry and are Electrostatic
Sensitive Devices (ESD). Handling the LILY-W1 series modules without proper ESD protection
may destroy or damage them permanently.
The LILY-W1 series modules are electrostatic sensitive devices (ESD) and require special ESD precautions typically
applied to ESD sensitive components. Section 4.1.1 provides the maximum ESD ratings of the LILY-W1 series
modules.
Proper ESD handling and packaging procedures must be applied throughout the processing, handling and
operation of any application that incorporates the LILY-W1 series module. The ESD precautions should be
implemented on the application board where the module is mounted.
Failure to observe these recommendations can result in severe damage to the device.
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LILY-W1 series - Data Sheet
9 Labeling and ordering information
9.1 Product labeling
The labels of the LILY-W1 series modules include important product information as described in this section.
Figure 8 illustrates the label of LILY-W1 series modules, which includes product type number and revision,
production date, Data Matrix with unique serial number and MAC address, u-blox logo, and certification
numbers (if applicable).
00B-00 YY/WW
MODEL: LILY-W132
1a
1b
Figure 8: Data available on the LILY-W1 series label
Reference
Description
Text box containing product name, version and date of production.
1a
Date of production encoded YY/WW (year/week)
1b
Product version
Data Matrix with unique serial number of 19 alphanumeric symbols. The 3 first symbols represent the unique module
type no. 549: LILY-W131 and 550: LILY-W132, the next 12 symbols represent the unique hexadecimal Wi-Fi MAC
address of the module AABBCCDDEEFF, and the last 4 symbols represent the hardware and firmware version encoded
HHFF.
See section 1.7 for more information about MAC addresses.
Text MODEL: and Product name (ID)
u-blox logo, the red dot in the logo is also marking pin no 1
Table 20: LILY-W1 series label description
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LILY-W1 series - Data Sheet
9.2 Explanation of codes
Three different product code formats are used. The Product Name is used in documentation such as this data
sheet and identifies all u-blox products, independent of packaging and quality grade. The Ordering Code
includes options and quality, while the Type Number includes the hardware and firmware versions. Table 21
below details these three different formats:
Format
Structure
Product Name
PPPP-TGVV
Ordering Code
PPPP -TGVV-TTQ
Type Number
PPPP -TGVV-TTQ-XX
Table 21: Product code formats
Table 22 explains the parts of the product code.
Code
Meaning
Example
PPPP
Form factor
LILY
TG
Platform (Technology and Generation)
T – Dominant technology, For example, W: Wi-Fi, B: Bluetooth
G - Generation
W1
VV
Variant based on the same platform; range [00…99]
31
TT
Major Product Version
00
Quality grade

A: Automotive

B: Professional

C: Standard
XX
Minor product version (not relevant for certification)
00
Table 22: Part identification code
9.3 Ordering information
Ordering Code
Product
LILY-W131-00B
LILY-W1 module with antenna pin
LILY-W132-00B
LILY-W1 module with internal antenna and LTE filter
Table 23: Product ordering codes
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LILY-W1 series - Data Sheet
Appendix
A Glossary
Abbreviation
Definition
ADC
Analog to Digital Converter
BPF
Band Pass Filter
BT
Bluetooth
CAN
Controller Area Network
CTS
Clear To Send
DC
Direct Current
DSR
Data Set Ready
DTR
Data Terminal Ready
GND
Ground
GPIO
General Purpose Input/Output
High
Input (means that this is an input port of the module)
IEEE
Institute of Electrical and Electronics Engineers
I2C
Inter-Integrated Circuit
Low
LPO
Low Power Oscillator
MIMO
Multi-Input Multi-Output
MSD
Moisture Sensitive Device
N/A
Not Applicable
Output (means that this is an output port of the module)
PCN/IN
Product Change Notification / Information Note
PD
Pull-Down
PU
Pull-Up
RMII
Reduced Media Independent Interface
RTS
Request To Send
RXD
Receive Data
SDIO
Secure Digital Input Output
SPI
Serial Peripheral Interface
TBD
To be Defined
TXD
Transmit Data
UART
Universal Asynchronous Receiver/Transmitter
USB
Universal Serial Bus
Table 24: Explanation of abbreviations used
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Appendix
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LILY-W1 series - Data Sheet
Related documents
[1]
u-blox Package Information Guide, Docu.No. UBX-14001652
[2]
[3]
LILY-W1 System Integration Manual, Docu.No. UBX-15027600
EVK-LILY-W1 User Guide, Docu.No. UBX-15030290
[4]
LILY-W1 Declaration of Conformity, Docu.No. UBX-16015108
[5]
LILY-W131 Antenna Connector - Reference Design, Docu.No. UBX-16016377
For regular updates to u-blox documentation and to receive product change notifications, register on our
homepage (http://www.u-blox.com).
Revision history
Revision
Date
Name
Status / Comments
R01
4-Jan-2016
mwej
Initial release.
R02
01-Mar-2016
mwej
Added Wi-Fi characteristics (Table 2, Table 14, and Table 16) and power consumption
characteristics (Table 9 and Table 10). Updated block diagram (Figure 1). Updated
product label (Figure 8).
R03
08-Apr-2016
mwej
Document status changed to Advanced Information. Added LILY-W132 LTE
characteristics (section 4.2.8). Minor correction in the mechanical drawing - Figure 5
(antenna tolerances). Added section with additional MAC address description (section
1.7). Added description of the Data Matrix on the label (section 9.1). Removed Japan
(MIC) from planned type approval countries.
R04
07-Jul-2016
mwej
Corrected Data Matrix information in label description (section 9.1). Added type
approval information (ETSI, FCC and IC) (Section 6). Added approved antenna chapter
(Section 7). Added reference to LILY-W1 Declaration of Conformity [4]. Adjusted
transmit power levels for current measurements (Table 9 and Table 10). Updated
Internal antenna with design recommendations (Section 2.2.1). Antenna Connector Reference Design [5]. Updated Product features table (Table 1).
UBX-15000203 - R04
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Related documents
Page 37 of 38
LILY-W1 series - Data Sheet
Contact
For complete contact information visit us at www.u-blox.com.
u-blox Offices
North, Central and South America
u-blox America, Inc.
Phone:
+1 703 483 3180
E-mail:
info_us@u-blox.com
Regional Office West Coast:
Phone:
+1 408 573 3640
E-mail:
info_us@u-blox.com
Headquarters
Europe, Middle East, Africa
u-blox AG
Phone:
+41 44 722 74 44
E-mail:
info@u-blox.com
Support: support@u-blox.com
Technical Support:
Phone:
E-mail:
+1 703 483 3185
support_us@u-blox.com
Asia, Australia, Pacific
u-blox Singapore Pte. Ltd.
Phone:
+65 6734 3811
E-mail:
info_ap@u-blox.com
Support: support_ap@u-blox.com
Regional Office Australia:
Phone:
+61 2 8448 2016
E-mail:
info_anz@u-blox.com
Support: support_ap@u-blox.com
Regional Office China (Beijing):
Phone:
+86 10 68 133 545
E-mail:
info_cn@u-blox.com
Support: support_cn@u-blox.com
Regional Office China (Chongqing):
Phone:
+86 23 6815 1588
E-mail:
info_cn@u-blox.com
Support: support_cn@u-blox.com
Regional Office China (Shanghai):
Phone:
+86 21 6090 4832
E-mail:
info_cn@u-blox.com
Support: support_cn@u-blox.com
Regional Office China (Shenzhen):
Phone:
+86 755 8627 1083
E-mail:
info_cn@u-blox.com
Support: support_cn@u-blox.com
Regional Office India:
Phone:
+91 80 4050 9200
E-mail:
info_in@u-blox.com
Support: support_in@u-blox.com
Regional Office Japan (Osaka):
Phone:
+81 6 6941 3660
E-mail:
info_jp@u-blox.com
Support: support_jp@u-blox.com
Regional Office Japan (Tokyo):
Phone:
+81 3 5775 3850
E-mail:
info_jp@u-blox.com
Support: support_jp@u-blox.com
Regional Office Korea:
Phone:
+82 2 542 0861
E-mail:
info_kr@u-blox.com
Support: support_kr@u-blox.com
Regional Office Taiwan:
Phone:
+886 2 2657 1090
E-mail:
info_tw@u-blox.com
Support: support_tw@u-blox.com
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Contact
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Title                           : LILY-W1 series
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