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ELIN-W1 series Multiradio Linux system-on-module with Wi-Fi and Bluetooth Data Sheet
Abstract
This technical data sheet describes ELIN-W1 series multiradio
wireless gateway. ELIN-W1 series is a highly-integrated multiradio
system-on-module with Wi-Fi IEEE 802.11a/b/g/n, Classic Bluetooth v2.1 + EDR, Bluetooth Low Energy v4.0, dual RMII, UART, CAN, USB
and SPI interfaces. The module is designed for a long life cycle, has
an extended operating temperature range and is suitable for industrial, vehicle, medical, security, and other demanding
applications.
www.u-blox.com
UBX-15011161 - R03
ELIN-W1 series - Data Sheet
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Document Information
Title ELIN-W1 series
Subtitle Multiradio Linux system-on-module with Wi-Fi and Bluetooth
Document type Data Sheet
Document number UBX-15011161
Revision and date R03 17-Jun-2016
Document status Early Production Information
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
ELIN-W160 ELIN-W160-00B-00 2.0.0.0 -
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. ARM® is the registered trademark of ARM Limited in the EU and other countries.
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Contents
Contents .............................................................................................................................. 3
1 Functional description .................................................................................................. 5
1.1 Overview .............................................................................................................................................. 5
1.2 Product features ................................................................................................................................... 5
1.3 Block diagram ....................................................................................................................................... 6
1.4 Product description ............................................................................................................................... 6
1.5 Supported features ............................................................................................................................... 6
2 Interfaces ...................................................................................................................... 7
2.1 Power management ............................................................................................................................. 7
2.1.1 Power sequence ............................................................................................................................ 7
2.2 Digital I/O interfaces supply output ....................................................................................................... 7
2.3 Antenna interfaces ............................................................................................................................... 7
2.3.1 Antenna connectors ...................................................................................................................... 7
3 System functions .......................................................................................................... 8
3.1 Module power modes .......................................................................................................................... 8
3.2 Module control signals ......................................................................................................................... 8
3.3 Bootstrapping ....................................................................................................................................... 8
3.4 System interfaces .................................................................................................................................. 8
3.4.1 Ethernet ........................................................................................................................................ 8
3.4.2 GPIO ............................................................................................................................................. 8
3.4.3 UART ............................................................................................................................................. 9
3.4.4 ADC .............................................................................................................................................. 9
3.4.5 JTAG ............................................................................................................................................. 9
3.4.6 USB ............................................................................................................................................... 9
3.4.7 SDIO .............................................................................................................................................. 9
3.4.8 SPI ................................................................................................................................................. 9
3.4.9 I2C ................................................................................................................................................. 9
4 Pin definition .............................................................................................................. 10
4.1 Primary connector ............................................................................................................................... 10
4.1.1 Default primary connector pin functions ...................................................................................... 10
4.2 Secondary connector .......................................................................................................................... 13
4.2.1 Default secondary connector pin functions .................................................................................. 13
5 Electrical specification ................................................................................................ 16
5.1 Absolute maximum ratings ................................................................................................................. 16
5.1.1 Supply voltage ............................................................................................................................. 16
5.1.2 Output voltage regulator ............................................................................................................. 16
5.1.3 Maximum ESD ............................................................................................................................. 16
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5.2 Operating conditions .......................................................................................................................... 16
5.2.1 Temperature range ...................................................................................................................... 17
5.2.2 Power supply ............................................................................................................................... 17
5.2.3 I/O DC characteristics .................................................................................................................. 17
5.2.4 Reset characteristics .................................................................................................................... 17
5.2.5 Control signals characteristics ...................................................................................................... 18
6 Mechanical specification ............................................................................................ 19
6.1 Module weight ................................................................................................................................... 19
6.2 Mounting information ........................................................................................................................ 19
7 Regulatory compliance .............................................................................................. 20
7.1 Wireless Regulatory compliance .......................................................................................................... 20
8 Product handling ........................................................................................................ 21
8.1 Packaging ........................................................................................................................................... 21
8.2 Moisture sensitivity levels .................................................................................................................... 22
8.3 ESD handling precautions ................................................................................................................... 22
9 Labeling and ordering information ........................................................................... 23
9.1 Product labeling .................................................................................................................................. 23
9.2 Explanation of codes........................................................................................................................... 23
9.3 Ordering information .......................................................................................................................... 24
10 Guidelines for efficient and safe use ........................................................................ 25
10.1 General ........................................................................................................................................... 25
10.1.1 Product care ................................................................................................................................ 25
10.1.2 Radio frequency exposure ........................................................................................................... 25
10.1.3 Electronic equipment ................................................................................................................... 25
10.2 Potentially explosive atmospheres ................................................................................................... 25
10.2.1 Safety compliance ....................................................................................................................... 26
Appendix .......................................................................................................................... 27
A Glossary ...................................................................................................................... 27
Related documents........................................................................................................... 28
Revision history ................................................................................................................ 28
Contact .............................................................................................................................. 29
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1 Functional description
1.1 Overview
The ELIN-W1 series is a highly integrated multiradio Linux platform module from u-blox targeted for integration
in devices for demanding applications such as industrial and medical applications. The module is built around a
Cortex-A8 CPU with an ODIN-W160 multiradio chip, which includes Wi-Fi, Classic Bluetooth and Bluetooth low energy (dual-mode / Bluetooth Smart Ready). The Wi-Fi support conforms to IEEE 802.11a/b/g/n and has support
for dual-band 2.4 GHz and 5 GHz operation.
The module is developed for reliable, high demanding industrial devices and applications and delivers high performance. The module provides modular radio type approvals for Europe, US and Canada (R&TTE, FCC, and
IC), EMC certification and Bluetooth qualification, which simplifies and shortens the integration work.
1.2 Product features
Table 1: ELIN-W1 series main features summary
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1.3 Block diagram
The block diagram of the ELIN-W1 series is provided in this section.
Figure 1: ELIN-W1 series block diagram
1.4 Product description
Model Description
ELIN-W160 OEM system-on-module with U.FL and board-to-board connector. AM3352 600MHz processor. MMU, Watch Dog Timer, RTC, 256 MB DDR3L RAM, 512 MB NAND Flash. It supports Bluetooth low energy, Classic Bluetooth and
Wi-Fi.
1.5 Supported features
Table 3 lists the main features supported by the ELIN-W1 series modules:
Interface Amount Configuration Comment
GPIO 16 General purpose IO:s 3.3V
Ethernet 2 100 Mbit RMII
MDIO 1
UART 3 UART up to 3.6 MBaud 3.3V
SDIO 1
SPI 1
I2C 1 400 kHz
Onboard EEPROM 1 64 kB EEPROM For MAC addresses, factory settings and custom data
USB 2 USB 2.0 OTG
ADC 4 200 kS/s Max 1.8V
JTAG 1
Regulated 3.3 V 1 500 mA Always on
Table 2: Main supported features
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2 Interfaces This section describes the signals available on the interface connectors of the module:
Host interface and control signals through primary and secondary board-to-board connector
Antenna connector through U.FL connector. See Antenna interfaces section for detailed information.
2.1 Power management
2.1.1 Power sequence
The ELIN-W1 is a single supply voltage module with configurable power management modes to reduce current
consumption. The power management ensures correct power sequencing of the internal power rails are within operational bounds. When all the rails are regulated within bounds, VINT_GOOD is asserted and the CPU is
started. If the PMIC is unable to regulate the power rails, the module is shut off.
If you use external voltage supplies for host peripherals, ensure that:
No voltage is applied to the IO pins before the VINT_GOOD is signaled
The external voltage rails are powered off before shut down of the ELIN-W1 module.
2.2 Digital I/O interfaces supply output
The ELIN-W1 provides the following output voltage rails that can be used to power the host peripherals:
Rail Specification Comment
VOUT_3V3 3.3V, max 500mA Always on
VINT_1V8 1.8V, max 50mA Available after power on
VINT_RTC 1.8V, max TBD Available after power on and during sleep
Table 3: IO power rails in ELIN-W1 series
2.3 Antenna interfaces
The unit cannot be mounted arbitrary due to the radio communication. See the ODIN-W16 series System
Integration Manual [3] for the antennas that can be used and for additional information about other RF and
antenna issues.
2.3.1 Antenna connectors
The ELIN-W160 has an U.FL connector for external antenna on the ODIN-W160. The U.FL connector has a characteristic impedance of 50 Ω, which supports both Bluetooth and dual-band Wi-Fi.
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3 System functions
3.1 Module power modes
The ELIN-W1 provides hardware support for low power modes for both radio and CPU to minimize power
consumption. See the ELIN-W1 series System Integration Manual [1] for information on how to setup and use
the different power modes.
3.2 Module control signals
The following signals are used to control the on board peripherals on the ELIN-W1 and to reflect the current
status:
Signal Location Type Description
LED Green Power LED, ON when the system is powered.
LED Yellow MCU.T13 Output CPU heartbeat, blink frequency reflects system load
RESETn Input 3.3 V, Active Low, Internal 10k pull-up
Power Toggle Input 5.5 V tolerant, Active Low, Internal 100k pull-up
VINT_GOOD Output 1.8 V, Active High
Table 4: ELIN-W1 series control signals
3.3 Bootstrapping
The ELIN-W1 latches the boot sequence during power up and maintains the configuration until the next power cycle. The board supports the following the boot mode:
Boot mode Interface order
Default NAND, NAND, I2C, MMC0, UART0
Table 5: ELIN-W1 Boot interface sequence
The U-Boot boot loader is located in NAND, which after initialization can boot either from the SD card, network,
USB or other peripherals.
Do not oppose the SYSBOOT pins during power on as it can prevent the device from booting properly.
3.4 System interfaces
The default configuration of the ELIN-W1 is a subset of the possible combinations for the AM3352 processor.
Other pinmux configurations are possible but not supported.
3.4.1 Ethernet
The ELIN-W1 supports two 100 Mbit Ethernet MAC through RMII with an integrated switch. The RMII interface operates at 3.3 V and requires the 50 MHz clock signal to be sourced from the PHY. Both the PHYs are
controlled through a single MDIO bus.
3.4.2 GPIO
16 GPIOs
Certain GPIO pins can be used as interrupt inputs depending on the pinmux configuration
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3.4.3 UART
The ELIN-W1 includes four UART interfaces. The UART0 is used as Linux console. The UART 1, 3 and 4 can be
used for general purpose.
All UARTs support IrDA and CIR modes
All UARTs support RTS and CTS flow control
UART1 supports full modem control
3.4.4 ADC
12-bit Successive Approximation Register (SAR) ADC
200 K Samples per second
Input can be selected from any of the eight analog inputs multiplexed through an 8:1 Analog Switch
Can be configured to operate as a 4-wire resistive Touch Screen Controller (TSC) interface
3.4.5 JTAG
This debug interface supports the following:
JTAG and cJTAG for ARM (Cortex-A8 and PRCM), PRU-ICSS Debug
Supports device boundary scan
Supports IEEE 1500
3.4.6 USB
Up to two USB 2.0 high-speed OTG ports with integrated PHY
3.4.7 SDIO
1-, 4- and 8-bit MMC, SD, and SDIO modes
3.3 V operation
Up to 48 MHz data transfer rate (Supports standard and high-speed mode)
Supports card detect and write protect through GPIO
Complies with MMC4.3, SD, and SDIO 2.0 specifications
3.4.8 SPI
The ELIN-W1 supports SPI master and slave interfaces on 48 MHz with one chip select.
3.4.9 I2C
Up to three I2C master and slave interfaces
Standard mode (up to 100 kHz)
Fast mode (up to 400 kHz)
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4 Pin definition Figure 2 illustrates an overview of the interface location on the connector.
4.1 Primary connector
Figure 2: Primary connector interface layout
4.1.1 Default primary connector pin functions
Description Type/
Characteristics
CPU
Pin
Interface
signal
Pin
No.
Pin
No.
Interface
signal
CPU
Pin
Characteristics Description
Ground GND GND 1 2 GND GND Ground
Ethernet RMII Continuous 50 MHz Reference Clock
I, 3.3 V H18 RMII1.REFCLK 3 4 GND Ground
Ground GND 5 6 RMII2.REFCLK
H16 I, 3.3 V
Ethernet RMII Continuous 50 MHz Reference Clock
Ethernet RMII Carrier Sense (CRS)/ RX_Data Valid
I, 3.3 V H17 RMII1.CRSDV 7 8 GND GND Ground
Ethernet RMII Transmit Data Available. Active high.
O, 3.3 V J16 RMII1.TXEN 9 10 RMII2.CRSDV
U16 I, 3.3 V
Ethernet RMII Carrier Sense (CRS) / RX_Data Valid
J15 RMII1.RXERR 11 12 RMII2.TX_EN
R13 O, 3.3 V
Ethernet RMII Transmit Data Available. Active high.
Ground GND GND 13 14 Reserved Do not connect
Ethernet RMII Transmit data bit 0
O, 3.3 V K17 RMII1.TXD0 15 16 GND GND Ground
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Description Type/
Characteristics
CPU
Pin
Interface
signal
Pin
No.
Pin
No.
Interface
signal
CPU
Pin
Characteristics Description
Ethernet RMII Transmit data bit 1
O, 3.3 V K16 RMII1.TXD1 17 18 RMII2.TXD0
V15 O, 3.3 V Ethernet RMII Transmit data bit 0
Ground GND GND 19 20 RMII2.TXD1
R14 O, 3.3 V Ethernet RMII Transmit data bit 1
Ethernet RMII Receive data bit 0
I, 3.3 V M16 RMII1.RXD0 21 22 GND GND Ground
Ethernet RMII Receive data bit 1
I, 3.3 V L15 RMII1.RXD1 23 24 RMII2.RXD0
V17 I, 3.3 V Ethernet RMII Receive data bit 0
Ground GND GND 25 26 RMII2.RXD1
T16 I, 3.3 V Ethernet RMII Receive data bit 1
MDIO (RMII PHY Management Data Input/Output) interface Data signal
IO, 3.3 V M17 MDIO.DATA 27 28 GND GND Ground
MDIO (RMII PHY Management Data Input/Output) interface Clock signal
O, 3.3 V M18 MDIO.CLK 29 30 RMII2.RESETN
L18 IO, 3.3 V Ethernet RMII PHY 2 Control Signal
Ground GND GND 31 32 RMII1.RESETN
L17 IO, 3.3 V Ethernet RMII PHY 1 Control Signal
Digital IO IO, 3.3 V, 10k PD, SYSBOOT pin
T2 GPIO.IO7 33 34 Reserved Do not connect
Digital IO IO, 3.3 V, 10k PD, SYSBOOT pin
R3 GPIO.IO6 35 36 PWR_ON 5.5 V tolerant, Act. Low
Module Power up/down signal
Digital IO IO, 3.3 V, 10k PD, SYSBOOT pin
R4 GPIO.IO5 37 38 VINT_GOOD
1.8 V, Act.High
Power Good Signal for VINT rails
Digital IO IO, 3.3 V, 100k PU, SYSBOOT pin
T1 GPIO.IO4 39 40 RESETN A10 10 k PU, Act. Low
System Reset Signal
Digital IO IO, 3.3 V, 10k PD, SYSBOOT pin
V2 GPIO.IO3 41 42 ADC.AIN3 A7 AI, 1.8 V Analog to Digital Converter
Digital IO IO, 3.3 V, 10k PD, SYSBOOT pin
V3 GPIO.IO2 43 44 ADC.AIN2 B7 AI, 1.8 V Analog to Digital Converter
Digital IO IO, 3.3 V, 100k PU, SYSBOOT pin
R2 GPIO.IO1 45 46 ADC.AIN1 C7 AI, 1.8 V Analog to Digital Converter
Digital IO IO, 3.3 V, 100k PU, SYSBOOT pin
R1 GPIO.IO0 47 48 ADC.AIN0 B6 AI, 1.8 V Analog to Digital Converter
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Description Type/
Characteristics
CPU
Pin
Interface
signal
Pin
No.
Pin
No.
Interface
signal
CPU
Pin
Characteristics Description
Ground GND GND 49 50 GND GND Ground
UART Transmit "0" : Low, "1" : High
O, 3.3 V D15 UART1.TXD 51 52 VREF_ADC B9 PWR, Max 1.8 V, no load
ADC Reference Voltage
UART Receive "0" : Low, "1" : High
I, 3.3 V D16 UART1.RXD 53 54 GND GND Ground
UART Clear To Send, hardware flow control. Active low.
I, 3.3 V, Act. Low
D18 UART1.CTS 55 56 VINT_RTC
PWR, Regulated output 1.8 V, max 1 mA. Available after VINT_GOOD is asserted
Regulated output voltage for suspend circuitry
UART Request To Send, hardware flow control. Active low.
O, 3.3 V, Act. Low
D17 UART1.RTS 57 58 VINT_1V8
PWR, Regulated output 1.8 V, max 50 mA. Available after VINT_GOOD is asserted
Regulated output voltage for 1.8V
USB0 VBUS supply control
O, 3.3 V F16 USB0.DRVVBUS
59 60 VOUT_3V3
PWR, Regulated output 3.3 V, max 500 mA, Always ON
Regulated output voltage for 3.3V
USB0 OTG identification
A P16 USB0.ID 61 62 GND GND Ground
USB0 VBUS (input only for voltage sensing)
A P15 USB0.VBUS 63 64 GND GND Ground
Ground GND GND 65 66 GND GND Ground
USB0 data differential pair
A N18 USB0.DM 67 68 GND GND Ground
USB0 data differential pair
A N17 USB0.DP 69 70 VCC PWR, DC power input
Module power supply
Ground GND GND 71 72 VCC PWR, DC power input
Module power supply
UART Transmit "0" : Low, "1" : High
O, 3.3 V E16 UART0.TXD 73 74 VCC PWR, DC power input
Module power supply
UART Receive "0" : Low, "1" : High
I, 3.3 V E15 UART0.RXD 75 76 VCC PWR, DC power input
Module power supply
UART Clear To Send, hardware flow control. Active low.
I, 3.3 V E18 UART0.CTS 77 78 VCC PWR, DC power input
Module power supply
UART Request To Send,
O, 3.3 V E17 UART0.RTS 79 80 VCC PWR, DC power input
Module power supply
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Description Type/
Characteristics
CPU
Pin
Interface
signal
Pin
No.
Pin
No.
Interface
signal
CPU
Pin
Characteristics Description
hardware flow control. Active low.
Table 6: ELIN-W1 primary connector description
Software support is not implemented currently.
4.2 Secondary connector
Figure 3 illustrates an overview of the interface location on the connector. The secondary connector is optional.
Figure 3: Secondary connector interface layout
4.2.1 Default secondary connector pin functions
Description Type/
Characteristics
CPU
Pin
Interface
signal
Pin
No.
Pin
No.
Interface
signal
CPU
Pin
Characteristi
cs
Description
Do not connect Reserved 1 2 Reserved Do not connect
Do not connect Reserved 3 4 Reserved Do not connect
Do not connect Reserved 5 6 Reserved Do not connect
Do not connect Reserved 7 8 Reserved Do not connect
Do not connect Reserved 9 10 Reserved Do not connect
Do not connect Reserved 11 12 Reserved Do not connect
Do not connect Reserved 13 14 Reserved Do not connect
Do not connect Reserved 15 16 GND GND Ground
Do not connect Reserved 17 18 Reserved Do not connect
Do not connect Reserved 19 20 Reserved Do not connect
UART Transmit "0" : Low, "1" : High
O, 3.3 V C18 UART3.TXD 21 22 GPIO.IO15 U18 IO, 3.3 V Digital IO
UART Receive "0" : Low, "1" : High
I, 3.3 V C15 UART3.RXD 23 24 GPIO.IO14 B12 IO, 3.3 V Digital IO
UART Clear To I, 3.3 V, 10k U3 UART3.CTS 25 26 GPIO.IO13 D13 IO, 3.3 V Digital IO
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Description Type/
Characteristics
CPU
Pin
Interface
signal
Pin
No.
Pin
No.
Interface
signal
CPU
Pin
Characteristi
cs
Description
Send, hardware flow control. Active low.
PD SYSBOOT pin
UART Request To Send, hardware flow control. Active low.
O, 3.3 V, 10 k PD, SYSBOOT pin
U4 UART3.RTS 27 28 GPIO.IO12 C13 IO, 3.3 V Digital IO
Ground GND GND 29 30 GPIO.IO11 K18 IO, 3.3 V Digital IO
SPI Master Clock output. The SPI direction depends on master/slave role.
O, 3.3 V A13 SPI1.CLK 31 32 GPIO.IO10 J17 IO, 3.3 V Digital IO
Ground GND GND 33 34 GPIO.IO9 K15 IO, 3.3 V Digital IO
SPI Master Input Slave Output. The SPI direction depends on master/slave role.
I, 3.3 V B13 SPI1.MISO 35 36 GPIO.IO8 J18 IO, 3.3 V Digital IO
SPI Master Output Slave Input. The SPI direction depends on master/slave role.
O, 3.3 V D12 SPI1.MOSI 37 38 GND GND Ground
SPI Slave Select, active low
O, 3.3 V C12 SPI1.CS0 39 40 I2C2.SDA A17 IO/D, 3.3 V I²C data
The Test Data Out pin receives serial data from the target during debugging.
O, 3.3 V A11 JTAG.TDO 41 42 GND GND Ground
Ground GND GND 43 44 I2C2.SCL B17 IO/D, 3.3 V I²C clock
The Test Clock pin is used to clock data into the TDI and TMS inputs of the target.
I, 3.3 V A12 JTAG.TCK 45 46 I2C1.SDA B16 IO/D, 3.3 V I²C data
Ground GND GND 47 48 I2C1.SCL A16 IO/D, 3.3 V I²C clock
The Test Reset pin can be used to reset the TAP controller of the processor to allow debugging to take place.
I, 3.3 V, 10k PD Act. Low
B10 JTAG.NTRST 49 50 GND GND Ground
The Test Data In pin provides serial data to the target during debugging
I, 3.3 V B11 JTAG.TDI 51 52 I2C0.SCL C16 O, 3.3 V, 1.5k PU
I²C clock
JTAG MISC IO, 3.3 V B14 JTAG.EMU1 53 54 I2C0.SDA C17 IO, 3.3 V, I²C data
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Description Type/
Characteristics
CPU
Pin
Interface
signal
Pin
No.
Pin
No.
Interface
signal
CPU
Pin
Characteristi
cs
Description
EMULATION PIN 1
1.5k PU
The Test Mode Select pin is used to set the state of the Test Access Port (TAP) controller on the target.
I, 3.3 V C11 JTAG.TMS 55 56 GND GND Ground
JTAG MISC EMULATION PIN 0
IO, 3.3 V C14 JTAG.EMU0 57 58 SDIO1.DATA2
T11 IO, 3.3 V SDIO data bit 2
Do not connect Reserved 59 60 SDIO1.DATA3
U12 IO, 3.3 V SDIO data bit 3
Do not connect Reserved 61 62 SDIO1.CMD
V9 IO, 3.3 V SDIO Command signal
Do not connect Reserved 63 64 GND GND Ground
Ground GND GND 65 66 SDIO1.CLK
U9 O, 3.3 V SDIO Clock signal
USB1 VBUS supply control
O, 3.3 V F15 USB1.DRVVBUS
67 68 GND GND Ground
USB1 OTG identification
A P17 USB1.ID 69 70 SDIO1.DATA0
U10 IO, 3.3 V SDIO data bit 0
USB1 VBUS (input only for voltage sensing)
A T18 USB1.VBUS 71 72 SDIO1.DATA1
T10 IO, 3.3 V SDIO data bit 1
Ground GND GND 73 74 SDIO1.DATA4
T12 IO, 3.3 V SDIO data bit 4
USB1 data differential pair
A R17 USB1.DP 75 76 SDIO1.DATA5
R12 IO, 3.3 V SDIO data bit 5
USB1 data differential pair
A R18 USB1.DM 77 78 SDIO1.DATA6
V13 IO, 3.3 V SDIO data bit 6
Ground GND GND 79 80 SDIO1.DATA7
U13 IO, 3.3 V SDIO data bit 7
Table 7: ELIN-W1 secondary connector description
TYPE: Signal direction
I = Input
O = Output
IO = Input and Output
D = Open drain
DS = Differential
A = Analog
PWR = Power
GND = Ground
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5 Electrical specification 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.
The ELIN-W1 module uses a single regulated supply voltage and single voltage IO levels. The module also has
the capability to provide regulated voltage supply for host logic decreasing the overall BOM and cost.
5.1 Absolute maximum ratings
The ELIN-W1 module uses a single regulated supply voltage and single voltage IO levels. The module also has the
capability to provide regulated voltage supply for host logic decreasing the overall BOM and cost.
5.1.1 Supply voltage
Symbol Parameter Vmin
Vtyp
Vmax
Imin
Ityp
(idle CPU, idle radio) Imax
Iq
VCC Supply voltage 3.6 V 5.0 V 5.5 V 150 mA 48 mA
VREF_ADC, AINx ADC Voltage Reference -0.5 V 1.8 V
IO pin 1.8 V 1.8V IO voltage -0.5 V 1.8 V 2.1 V
IO pin 3.3 V 3.3V IO voltage -0.5 V 3.3 V 3.6 V
Table 8: ELIN-W1 supply voltage properties
5.1.2 Output voltage regulator
Symbol Parameter Vmin
Vtyp
Vmax
Imax
Comment
VINT_RTC Regulated Deep Sleep Voltage 1.8 V TBD
VINT_1V8 Regulated Output voltage 1.8 V 1.8 V 50 mA
VOUT_3V3 Regulated Output voltage 3.3 V 3.3 V 500 mA
Table 9: ELIN-W1 output voltage properties
Do not apply voltage to any interfaces before VINT_GOOD is asserted as this can harm the module.
Output voltages are subject to power sequencing and are shared with on-board peripherals.
Exceeding the Imax
limit may harm the device and cause undefined behavior!
5.1.3 Maximum ESD
Parameter Maximum Unit Remarks
ESD immunity ±6000 V Air Discharge according to IEC 61000-4-2
Table 10: ELIN-W1 series maximum ESD ratings
5.2 Operating conditions
Operating condition ranges define those limits within which the functionality of the device is guaranteed.
ELIN-W1 series - Data Sheet
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5.2.1 Temperature range
Parameter Minimum Maximum Unit
Storage temperature -40 +85 °C
Operating temperature -40 +75 °C
Table 11: Temperature range
5.2.2 Power supply
Read the safety notes in Guidelines for efficient and safe use section before using the module.
5.2.2.1 Supply voltage
Symbol Parameter Minimum Type Maximum Unit
VCC Supply voltage 3.6 5.0 5.5 V
Table 12: Power supply voltage
5.2.2.2 Current consumption
The current consumption for ELIN-W1 is provided in the following table. These measurements are performed at
room temperature with 5.0 V regulated supply voltage.
Symbol Power mode State lmin
ltyp
Imax
Unit Power consumption
Unit
Power down 48 μA mW
RTC Only Mode 195 μA mW
Wireless Receive 226 mA mW
Wireless Transmit 312 mA mW
Idle 151 mA mW
Table 13: ELIN-W1 current consumption
5.2.3 I/O DC characteristics
Symbol Parameter Minimum Type Maximum Unit
VIO 1.8 V 1.8 V IO domain 1.710 1.80 1.89 V
VIO 3.3 V 3.3 V IO domain 3.135 3.300 3.465 V
VIL LOW level input voltage 0 0.35 x VIO V
VIH HIGH level input voltage 0.65 x VIO VIO V
VOL
LOW level output voltage 0.0 0.45 V
VOH
HIGH level output voltage VIO - 0.45 VIO V
IGPIO
Sink and source current Pin dependent. See Datasheet for AM335x
mA
Table 14: ELIN-W1 I/O characteristics
5.2.4 Reset characteristics
Symbol Parameter Condition Minimum Type Maximum Unit
VIL(RESET_N)
RESET_N Input low level voltage 0.5 V
VIH(RESET_N)
RESET_N Input high level voltage 1.35 V
Vhys(RESET_N)
RESET_N Schmitt trigger voltage hysteresis
70 mV
RPU(RESET_N)
Internal RESET_N pull-up resistance 10 kΩ
CRESET_N
Internal RESET_N capacitance 100 nF
Table 15: ELIN-W1 current consumption
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5.2.5 Control signals characteristics
Symbol Parameter Condition Minimum Type Maximum Unit
VIL(VINT_GOOD)
VINT_GOOD Input low level voltage 0.3 V
VIH(VINT_GOOD)
VINT_GOOD Input high level voltage VIO - 0.3 V
VIL(PWR_ON)
Power ON Input low level voltage 0 0.4 V
VIH(PWR_ON)
Power ON Input high level voltage 1.2 VCC V
Table 16: ELIN-W1 control signal characteristics
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6 Mechanical specification
Figure 4: ELIN-W1 mechanical drawing
6.1 Module weight
Parameter Product variant Measure Unit
Weight ELIN-W160 14 g
Outline dimension ELIN-W160 50.0 x 44.0 x 9.6 mm
Table 17: ELIN-W160 mechanical properties
6.2 Mounting information
The ELIN-W1 has three mounting holes, which enables the module to be used in environments with vibration.
ELIN-W1 series - Data Sheet
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7 Regulatory compliance
Products marked with this lead-free symbol on the product label 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).
The ELIN-W1 series modules are RoHS compliant. No natural rubbers, hygroscopic
materials, or materials containing asbestos are employed.
The ELIN-W1 module is for OEM integration only.
ELIN-W1has been tested and complies with the regulatory demands of the CE-mark, Industry Canada (IC) and the limits for a Class B digital device pursuant to Part 15 of the FCC Rules.
ELIN-W1 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 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:
o Reorient or relocate the receiving antenna
o Increase the separation between the equipment and receiver
o 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.
Any changes or modifications NOT explicitly APPROVED by u-blox AG could cause the module to
cease to comply with FCC rules part 15, and thus void the user's authority to operate the
equipment.
To fulfill the safety standard EN 60950 ELIN-W1must be supplied with a Class-2 Limited Power
Source.
7.1 Wireless Regulatory compliance
The regulatory compliance of the wireless part of ELIN-W1 relies on the regulatory certification of the onboard
radio module ODIN-W160.
ODIN-W160 is tested and complies with the regulatory demands in Canada (IC), US (FCC), Japan (Giteki) and Europe (CE). It has a FCC, IC and Giteki Modular Transmitter certification.
To secure that the wireless part of ELIN-W1 is operated in an authorized mode read carefully the regulatory instructions found in the documents ELIN-W1 System Integration Manual [1] and
ODIN-W1 System Integration Manual [3].
ELIN-W1 series - Data Sheet
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8 Product handling
8.1 Packaging
The ELIN-W1 series modules are delivered on trays, with 24 pieces of modules on each tray. Table 18 describes
the module quantity in a standard shipment package of ELIN-W1. The dimensions of the trays and tray packages
in a carton are specified in Figure 5 and Figure 6. For more information about packaging, see the u-blox Package Information Guide [5].
Quantity
ELIN-W1 module in one shipment package 96 pieces
Trays in one shipment package 4 trays
ELIN-W1 modules on Trays 24 pieces/tray
Table 18: Package information of ELIN-W1 module
Figure 5: ELIN-W1 tray dimensions (unit: mm)
ELIN-W1 series - Data Sheet
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Figure 6: Tray arrangement in a carton (unit: mm)
8.2 Moisture sensitivity levels
The ELIN-W1 modules are Moisture Sensitive Devices (MSD) in accordance to the IPC/JEDEC
specification.
The Moisture Sensitivity Level (MSL) relates to the packaging and handling precautions required. The ELIN-W1
modules are rated at MSL level 4. For more information regarding moisture sensitivity levels, labeling, storage
and drying see the u-blox Package Information Guide [5].
For MSL standard, see IPC/JEDEC J-STD-020, which can be downloaded from www.jedec.org.
8.3 ESD handling precautions
The ELIN-W1 modules contain highly sensitive electronic circuitry and are Electrostatic Sensitive
Devices (ESD). Handling ELIN-W1 modules without proper ESD protection may destroy or damage them permanently.
The ELIN-W1 modules are Electrostatic Sensitive Devices (ESD) and require special ESD precautions typically
applied to ESD sensitive components. The Maximum ESD section reports the maximum ESD ratings of the ELIN-W1 modules.
Proper ESD handling and packaging procedures must be applied throughout the processing, handling, and
operation of any application that incorporates ELIN-W1 module.
The ESD precautions should be implemented on the application board where the module is mounted, as
described in the ELIN-W1 series System Integration Manual [1].
Failure to observe these recommendations can result in severe damage to the device!
ELIN-W1 series - Data Sheet
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9 Labeling and ordering information
9.1 Product labeling
The labels of ELIN-W1 series modules include important product information as described in this section. Figure 7
illustrates the label of ELIN-W1 series modules and includes: u-blox logo, product name, product revision, date of
production, dataMatrix (with unit serial number, hardware and firmware revision) and pin 1 marker.
Figure 7: ELIN-W1 series sample label
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 19 provides information regarding these three different formats:
Format Structure
Product Name PPPP-TGVV
Ordering Code PPPP-TGVV-TTQ
Type Number PPPP-TGVV-TTQ-XX
Table 19: Product code formats
Table 20 explains the parts of the product code.
Code Meaning Example
PPPP Form factor ELIN
TG Platform
T – Dominant technology, For example, W: Wi-Fi, B: Bluetooth
G - Generation
W1
VV Variant based on the same platform; range [00…99] 60
TT Major Product Version 00
Q Quality grade
A: Automotive
B: Professional
C: Standard
B
XX Minor product version (not relevant for certification) Default value is 00
Table 20: Part identification code
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9.3 Ordering information
Ordering Number Product
ELIN-W160-00B 600 MHz, 512 MB Flash, 256 MB RAM with ODIN-W160. U.FL connector.
Table 21: Product ordering codes
ELIN-W1 series - Data Sheet
UBX-15011161 - R03 Early Production Information Guidelines for efficient and safe use
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10 Guidelines for efficient and safe use
10.1 General
Read this information before using your ELIN-W1 module. For any exceptions due to national requirements or
limitations while using your Wi-Fi module, please contact u-blox AG.
Changes or modifications to the product not expressly approved by u-blox will void the user's
authority to operate the equipment.
10.1.1 Product care
• Do not expose your product to liquid or moisture.
• Do not expose your product to extreme hot or cold temperature. • Do not expose your product to lit candles, cigarettes, cigars, open flames and so on.
• Do not drop, throw or try to bend your product since rough treatment could damage your product.
• Do not attempt to disassemble your product. Doing so will void warranty. The product does not contain consumer serviceable or replaceable components. Service should only be performed by
u-blox AG.
• Do not paint your product as the paint could prevent normal use. • If you will not use your product for a while, store it in a place that is dry, free from damp, dust and
extreme heat and cold.
• The clearance and creepage distances required by the end product must be withheld when the module is installed.
• The cooling of the end product shall not negatively be influenced by the installation of the module
when the module is installed.
10.1.2 Radio frequency exposure
The ODIN-W160 Wi-Fi module contains a small radio transmitter and receiver.
During communication with other Wi-Fi products, the ODIN-W160 module transmits and receives radio
frequency (RF) electromagnetic fields (microwaves) in the frequency range 2412 - 2462 MHz, 5180 - 5240 MHz,
5260 - 5320 MHz, and 5500 - 5700 MHz. The output power of the radio transmitter is very low. While using the module, you will be exposed to some of the transmitted RF energy. This exposure is well below the prescribed
limits in all national and international RF safety standards and regulations.
10.1.3 Electronic equipment
Most modern electronic equipment in hospitals and cars is shielded from RF energy. However, certain electronic
equipments are not.
This equipment emits RF energy in the ISM (Industrial, Scientific, Medical) band. Please ensure
that all medical devices used in proximity to this device meet appropriate susceptibility specifications for this type of RF energy.
10.2 Potentially explosive atmospheres
Turn off your electronic device before entering an area with potentially explosive atmosphere. It is rare, but your
electronic device could generate sparks. Sparks in such areas could cause an explosion or fire resulting in bodily
injury or even death.
Areas with a potentially explosive atmosphere are often, but not always, clearly marked. They include fueling
areas, such as petrol stations, below deck on boats, fuel or chemical transfer or storage facilities, and areas
where the air contains chemicals or particles, such as grain, dust or metal powders.
ELIN-W1 series - Data Sheet
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10.2.1 Safety compliance
To fulfill the safety standard EN 60950, the ELIN-W160 Wi-Fi module must be supplied by a Class-2 Limited
Power Source.
ELIN-W1 series - Data Sheet
UBX-15011161 - R03 Early Production Information Appendix
Page 27 of 29
Appendix
A Glossary Name 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
FW Firmware
GND Ground
GPIO General Purpose Input Output
H High
I Input (means that this is an input port of the module)
IEEE Institute of Electrical and Electronics Engineers
I2C Inter-Integrated Circuit
L Low
LPO low Power Oscillator
MSL Moisture Sensitivity Level
N/A Not Applicable
O 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
SAR Successive Approximation Register
SDIO Secure Digital Input Output
SPI Serial Peripheral Interface
TBD To Be Defined
TSC Touch Screen Controller
TXD Transmit Data
UART Universal Asynchronous Receiver-Transmitter serial interface
USB Universal Serial Bus
Table 22: Explanation of abbreviations and terms used
ELIN-W1 series - Data Sheet
UBX-15011161 - R03 Early Production Information Related documents
Page 28 of 29
Related documents [1] ELIN-W1 System Integration Manual, document number UBX-15011162
[2] EVK-W16 User Guide, document number UBX-15017061
[3] ODIN-W1 series System Integration Manual, document number UBX-15011025
[4] ODIN-W1 series Data Sheet, document number UBX-15011034
[5] u-blox Package Information Guide, document number UBX-14001652
For regular updates to u-blox documentation and to receive product change notifications please register on our homepage.
Revision history
Revision Date Name Status / Comments
R01 24-Feb-2015 mjer Initial release
R02 26-Jan-2016 lalb, mjer, fbro, jhel, kgom
Updated the document status to Advance Information. Added sample image of the module label. Changed the maximum operating temperature range from +85 °C to +75 °C. Updated the Firmware revision to 2.0. Included chapter 8 - Product handling and included packaging information for ELIN-W1 in section 8.1.
R03 17-Jun-2016 fbro, ovik Updated the document status to Early Production Information. Added information about type approvals in section 7.
ELIN-W1 series - Data Sheet
UBX-15011161 - R03 Early Production Information Contact
Page 29 of 29
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
Technical Support:
Phone: +1 703 483 3185
E-mail: support_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
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