Wistron NeWeb UMC 6270Q User Manual
Product specification
Wistron NeWeb Corp.
CONFIDENTIAL
THIS DOCUMENT CONTAINS PROPRIETARY TECHNICAL INFORMATION, WHICH IS THE PROPERTY OF
THE WISTRON NEWEB CORPORATION AND SHALL NOT BE DISCLOSED TO OTHERS IN WHOLE OR IN
PART, REPRODUCED, COPIED, OR USED AS THE BASIS FOR DESIGN, MANUFACTURING, OR SALE OF
APPARATUS WITHOUT WRITTEN PERMISSION OF WISTRON NEWEB CORPORATION.
UMC-6270QV
User Guide
1
Product specification
Revision
Date
Description
V1.0
April 7 2014
Initial release
V2.0
May 13 2014
Modify recommended operating condition
CONTENTS
CONTENTS .......................................................................................................................................................................... 2
1. INTRODUCTION ...................................................................................................................................................... 3
1.1 PRODUCT CONCEPT ........................................................................................................................................ 3
1.2 STANDARDS ....................................................................................................................................................... 3
1.3 TERMS AND ABBREVIATION ......................................................................................................................... 4
1.4 CONVENTIONS ................................................................................................................................................... 4
1.5 PRODUCT FEATURES OVERVIEW ............................................................................................................... 5
2. BLOCK DIAGRAM & PIN ASSIGNMENT ........................................................................................................... 7
3. RF AIR INTERFACES AND PERFORMANCE ................................................................................................ 14
3.1 RF AIR INTERFACE AND BAND CONFIGURATION ................................................................................ 14
3.1.1 Air interfaces ............................................................................................................................................. 14
3.2 RF PERFORMANCE ......................................................................................................................................... 14
3.3 TRANSMITTER POWER CLASS ................................................................................................................... 14
4. OPERATING CONDITIONS ................................................................................................................................ 15
4.1 ABSOLUTE MAXIMUM RATINGS ................................................................................................................. 15
4.2 RECOMMENDED OPERATING CONDITION .............................................................................................. 16
5. CURRENT CONSUMPTION ................................................................................................................................ 17
6. APPLCATION DESIGN NOTES ......................................................................................................................... 18
6.1 LAYOUT NOTES .................................................................................................................................. 18
7. MECHANICAL REQUIREMENTS ...................................................................................................................... 20
7.1 MODULE DIMENSION AND FOOTPRINT.................................................................................................... 20
8. CERTIFICATION REQUIREMENTS ................................................................................................................ 22
8.1 CARRIER CERTIFICATION REQUIREMENTS ........................................................................................... 22
8.2 REGULATORY COMPLIANCE ..................................................................................................................... 22
8.3 FCC WARNING STATEMENT ........................................................................................................................ 22
Revision history
2
Product specification
FCC
RF : FCC Part 22H (850 Band )
FCC Part 24E (for 1900 Band)
FCC Part 22 Subpart H:
Cellular Radiotelephone Service; Subpart I: Offshore
Radiotelephone Service;
FCC Part 24 E: Personal Communications Service; Subpart E:
Broadband PCS.
EMI: FCC Part 15B
Subpart B - Radio frequency devices subpart B – Unintentional
Radiators
SAR(MPE) : OET65C
1. INTRODUCTION
This document describes the hardware interface of the WNC Small Form Factor (SFF) module used to connect
the device application and the air interface.
Two versions of Small Form Factor (SFF) module are described in this specification document as follows:
UMC-6270QV - HSDPA
1.1 PRODUCT CONCEPT
The SFF module is one of the smallest available WCDMA HSDPA of the market. The target application is the
Machine to Machine (M2M) market including automotive, AMM (Automatic Metering Management), tracking
system, Alarm, Healthcare/monitoring, Telematics etc. Despite its small size and cost,
In addition to its size it has the following outstanding characteristics:
Minimum low power consumption in idle mode: 1.4mA
High input voltage range: 3.4 V to 4.2 V
USB High Speed
Digital Audio PCM
Full set of AT commands as well as analogue and Digital audio interface.
In addition to the module, a complete development kit can be provided for customers.
1.2 STANDARDS
This product, together with its evaluation board, is in compliance with the directives and standards listed below:
Directives
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Product specification
1.3 TERMS AND ABBREVIATION
ADC Analog to Digital Converter
CODEC Coder-Decoder
CLIP Calling Line Identification Presentation
COLP Connected Line Identification Presentation
CLIR Calling Line Identification Restriction
COLR Connected Line Identification Restriction
CTS Clear To Send
CSD Circuit Switched Data
CS Codec Scheme
DCS Digital Communications System
DSR Data Set Ready
DTR Data Terminal Ready
ENS Enhanced network selection
EONS Enhanced operator name string
ESD Electrostatic Discharge
ETS European Telecommunication Standard
FAX Facsimile
HSCSD High Speed Circuit Switched Data
HSDPA High Speed Downlink Packet Access
IC Integrated Circuit
IEEE Institute of Electrical and Electronics Engineers
I/O Input / Output
ISO International Standards Organization
ITU International Telecommunication Union
JTAG Joint Test Action Group
Kbps kilobit per second
LCD Liquid Crystal Display
LED Light Emitting Diode
Mbps Megabit per second
PBCCH Packet Broadcast Channel
PCB Printed Circuit Board
PCM Pulse Code Modulation
PCS Personal Communication System
PWM Pulse Width Modulation
RAM Random Access Memory
RF Radio Frequency
RI Ring Indication
RMS Root Mean Square
RTS Ready To Send
RX Reception
SIM Subscriber Identification Module
SMS Short Message Service
TBC To Be Confirmed
TBD To Be Defined
TX Transmission
UART Universal Asynchronous Receiver and Transmitter
UMTS Universal Mobile Telecommunications System
USB Universal Serial Bus
USIM Universal Subscriber Identity Module
USSD Unstructured Supplementary Service Data
1.4 CONVENTIONS
Throughout this document, DTE (data terminal equipment) indicates the equipment which masters and controls
the module device by sending AT commands via its serial interface.
DCE (data communication equipment) indicates the module device.
4
Product specification
Temperature range
Normal range: -25°C to +85°C
Storage: -40°C to +85°C
Weight
6 g (typ.)
ESD
ESD protection >= 2 kV
Physical dimensions
22.1 x 25.1 x 2.65 mm (typical)
Connection
141 pin LGA type
Power supply
3.4V to 4.2V range, 3.8V nominal
Power consumption*
Off mode: 50 µA typical
Registered idle mode:
WCDMA: 1.3 mA (DRX=9)
Peak Current
WCDMA: up to 700 mA
Antenna /RF interface
Both GPS and transmitter/receiver RF are LGA Pad.
Frequency bands
WNC module supports
UMTS B2 /B5
Transmit power
Class 3 for UMTS 850/1900
Supported SIM cards
3V and 1.8V SIM cards
SIM slot
Signals for the management of the SIM card are provided on LGA
pads.
PWM
Signal for LED, vibrating device and Buzzer management is provided
on the PWM pin
Digital audio link
A digital audio interface PCM bus is provided. Master mode with 16
bits and a frequency of 2048 KHz.
Data/command multiplexing
Software management of data/command multiplexing on the serial
link UART.
USB
Supports USB High speed 480Mbps and full speed 12Mbps, with 3
logical Channels. Battery charging is achieved through USB
USIM
Use USIM controller to achieve USIM connection
*
1.5 PRODUCT FEATURES OVERVIEW
Module Hardware Configuration
The SFF LGA module will support the QSC6270/6055 chipset with the configuration described below.
For UMC-6270QV module:
Key Features
• Compliant with 3GPP Rel’5 for WCDMA and HSDPA
• Max. Data Rate: 384Kbps uplink, 384Kbps downlink with WCDMA Rel’99 and 3.6Mbps
downlink with HSDPA
• Support OS: Brew Mobile Platform
• ARM9 operating at 230Mhz maximum frequency
The power consumption is highly dependent on the customer’s product design and the module environment.
5
Product specification
• Data interface: USB2.0 Host High Speed
• Form Factor: LGA module
Specification
• Communication Interface: (I2C x1/UART x1/USB2.0 x1/SPI x1/ SDIO x2)
• Support HSDPA (DL 3.6Mbps/UL 384Kbps)
• Supported SIM cards (3V and 1.8V SIM cards)
• USIM interface
• General purpose I/O pins ( x25)
• Audio Interface (PCM/ I2S)
• MCP (DDR 512Mb + 1Gb NAND)
• Support GPS
• RF interface: 2 RF pads for WCDMA TX/RX, and GPS.
WCDMA/HSDPA Support Bands
• Band 2 and Band 5
WCDMA Power Class
• Class3 (24dBm +1/-3 dB)
6
Product specification
2. BLOCK DIAGRAM & PIN ASSIGNMENT
Pin Definition 4
This section is intended to capture the final LGA pin out for the SFF Module.
The interfaces with a SFF module are all through a 141-pin surface LGA pad, as shown in Figure 2-1.
For UMC-6270QV module:
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