Related Manuals for Quectel UG96
Summary of Contents for Quectel UG96
- Page 1 UG96 Hardware Design UMTS/HSPA Module Series Rev. UG96_Hardware_Design_V1.6 Date: 2018-08-13 Status: Released www.quectel.com...
- Page 2 QUECTEL OFFERS THE INFORMATION AS A SERVICE TO ITS CUSTOMERS. THE INFORMATION PROVIDED IS BASED UPON CUSTOMERS’ REQUIREMENTS. QUECTEL MAKES EVERY EFFORT TO ENSURE THE QUALITY OF THE INFORMATION IT MAKES AVAILABLE. QUECTEL DOES NOT MAKE ANY WARRANTY AS TO THE INFORMATION CONTAINED HEREIN, AND DOES NOT ACCEPT ANY LIABILITY FOR ANY INJURY, LOSS OR DAMAGE OF ANY KIND INCURRED BY USE OF OR RELIANCE UPON THE INFORMATION.
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Page 3: About The Document
UMTS/HSPA Module Series UG96 Hardware Design About the Document History Revision Date Author Description Tony GAO/ 2015-02-28 Initial Cat WANG Updated PCM interface information in Table 2. Updated Figure 1. 2015-10-23 Felix YIN Updated PCM application in Chapter 3.13. Updated ESD values in Chapter 5.7. -
Page 4: Table Of Contents
UMTS/HSPA Module Series UG96 Hardware Design Contents About the Document ........................... 2 Contents ............................... 3 Table Index ..............................5 Figure Index ..............................6 Introduction ............................8 1.1. Safety Information........................9 Product Concept ..........................10 2.1. General Description ......................... 10 2.2. - Page 5 UMTS/HSPA Module Series UG96 Hardware Design 3.15. STATUS ........................... 47 Antenna Interface ..........................48 4.1. GSM/UMTS Antenna Interface ....................48 4.1.1. Pin Definition ........................48 4.1.2. Operating Frequency ..................... 48 4.1.3. Reference Design of RF Antenna Interface ..............49 4.1.4.
- Page 6 UG96 Hardware Design Table Index TABLE 1: FREQUENCY BANDS OF UG96 MODULE..................10 TABLE 2: KEY FEATURES OF UG96 MODULE ....................11 TABLE 3: I/O PARAMETERS DEFINITION ....................... 17 TABLE 4: PIN DESCRIPTION ........................... 17 TABLE 5: OVERVIEW OF OPERATING MODES ..................... 22 TABLE 6: VBAT AND GND PINS ........................
- Page 7 UMTS/HSPA Module Series UG96 Hardware Design Figure Index FIGURE 1: FUNCTIONAL DIAGRAM ....................... 14 FIGURE 2: PIN ASSIGNMENT (TOP VIEW) ....................16 FIGURE 3: SLEEP MODE APPLICATION VIA UART ..................24 FIGURE 4: USB APPLICATION WITH SUSPEND FUNCTION ................ 25 FIGURE 5: SLEEP MODE APPLICATION WITHOUT SUSPEND FUNCTION ..........
- Page 8 UMTS/HSPA Module Series UG96 Hardware Design FIGURE 39: SPACE FACTOR OF MATED CONNECTOR (UNIT: MM) ............53 FIGURE 40: MODULE TOP AND SIDE DIMENSIONS ..................61 FIGURE 41: MODULE BOTTOM DIMENSIONS (TOP VIEW) ................. 62 FIGURE 42: RECOMMENDED FOOTPRINT (TOP VIEW) ................63 FIGURE 43: TOP VIEW OF THE MODULE ......................
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Page 9: Introduction
UMTS/HSPA Module Series UG96 Hardware Design Introduction This document defines the UG96 module and describes its air interface and hardware interface which are connected with customers’ applications. This document can help customers quickly understand module interface specifications, electrical and mechanical details, as well as other related information of UG96 module. Associated with application note and user guide, customers can use UG96 module to design and set up mobile applications easily. -
Page 10: Safety Information
UG96 module. Manufacturers of the cellular terminal should send the following safety information to users and operating personnel and incorporate these guidelines into all manuals supplied with the product. If not so, Quectel assumes no liability for customers’ failure to comply with these precautions. -
Page 11: Product Concept
More details about GPRS/EDGE multi-slot configuration and coding schemes, please refer to Appendix B, C and D. With a compact profile of 26.5mm × 22.5mm × 2.2mm, UG96 can meet almost all requirements for M2M applications such as wireless POS, metering, telematics, security, industry PDA/PC and tablet, etc. -
Page 12: Key Features
UMTS/HSPA Module Series UG96 Hardware Design 2.2. Key Features The following table describes the detailed features of UG96 module. Table 2: Key Features of UG96 Module Feature Details Supply voltage: 3.3V~4.3V Power Supply Typical supply voltage: 3.8V GSM 4-band: 850/900/1800/1900MHz... - Page 13 Support drivers Windows Windows Vista, Windows 7/8/8.1/10, Linux 2.6/3.x/4.1, Android 4.x/5.x/6.0 Compliant with 3GPP TS 27.007, 27.005 and Quectel enhanced AT AT Commands commands Real Time Clock Supported Network Indication One pin NETLIGHT to indicate network status Antenna Interface GSM/UMTS antenna, 50Ω...
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Page 14: Functional Diagram
When the temperature returns to normal operating temperature levels, the module will meet 3GPP specifications again. 2.3. Functional Diagram The following figure shows a block diagram of UG96 and illustrates the major functional parts. ⚫ RF transceiver ⚫... -
Page 15: Evaluation Board
Figure 1: Functional Diagram 2.4. Evaluation Board In order to help customers, develop applications conveniently with UG96, Quectel supplies an evaluation board (UMTS<E EVB), RS-232 to USB cable, USB data cable, power adapter, earphone, antenna and other peripherals to control or test the module. For details, please refer to document [2]. -
Page 16: Application Interfaces
Application Interfaces 3.1. General Description UG96 is equipped with 62-pin 1.1mm pitch SMT pads plus 40-pin ground/reserved pads that can be connected to customers’ cellular application platforms. Sub-interfaces included in these pads are described in detail in the following chapters: ⚫... -
Page 17: Pin Assignment
UMTS/HSPA Module Series UG96 Hardware Design 3.2. Pin Assignment The following figure shows the pin assignment of UG96 module. RESERVED RESERVED RESERVED USIM_GND PCM_CLK USIM_CLK PCM_SYNC USIM_DATA PCM_DIN USIM_RST PCM_DOUT USIM_VDD USIM_PRESENCE USB_VBUS USB_DP I2C_SDA USB_DM I2C_SCL RESERVED RESERVED RESERVED... -
Page 18: Pin Description
UMTS/HSPA Module Series UG96 Hardware Design 3.3. Pin Description The following tables show the pin definition of UG96 module. Table 3: I/O Parameters Definition Type Description Bidirectional Digital input Digital output Power input Power output Analog input Analog output Open drain... - Page 19 UMTS/HSPA Module Series UG96 Hardware Design If unused, keep it open. 3, 31, 48, 50, 54, 55, 58, 59, 61, 62, 67~74, Ground 79~82, 89~91, 100~102 Turn On/Off Pin Name Pin No. Description DC Characteristics Comment ≈200KΩ Pull-up to VRTC max=2.1V...
- Page 20 UMTS/HSPA Module Series UG96 Hardware Design bus (+) 2.0 standard impedance of 90Ω. specification. Compliant with USB USB differential data Require differential USB_DM 2.0 standard bus (-) impedance of 90Ω. specification. (U)SIM Interface Pin Name Pin No. Description DC Characteristics...
- Page 21 UMTS/HSPA Module Series UG96 Hardware Design max=0.35V 1.8V power domain. USIM_ (U)SIM card min=1.3V External pull-up PRESENCE insertion detection max=1.85V resistor is required. Main UART Interface Pin Name Pin No. Description DC Characteristics Comment 1.8V power domain. max=0.25V Ring indicator If unused, keep it min=1.55V...
- Page 22 UMTS/HSPA Module Series UG96 Hardware Design 1.8V power domain. PCM data frame In master mode, it is max=0.25V PCM_SYNC synchronization an output signal. min=1.55V signal If unused, keep it open. 1.8V power domain. In master mode, it’s max=0.25V PCM_CLK PCM data bit clock an output signal.
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Page 23: Operating Modes
UMTS/HSPA Module Series UG96 Hardware Design 26~28, 56, 57, 63~66, 75~78, 83~88, 92~99 NOTE “*” means under development. 3.4. Operating Modes The table below briefly summarizes the various operating modes referred in the following chapters. Table 5: Overview of Operating Modes... -
Page 24: Power Saving
VBAT_RF and VBAT_BB) remains applied. 3.5. Power Saving 3.5.1. Sleep Mode UG96 is able to reduce its current consumption to a minimum value during the sleep mode. The following sub-chapters describe power saving procedures of UG96. 3.5.1.1. UART Application If the host communicates with module via UART interface, the following preconditions must be met to let the module enter into sleep mode. -
Page 25: Usb Application With Suspend Function
UMTS/HSPA Module Series UG96 Hardware Design Host Module EINT GPIO GPIO AP_READY Figure 3: Sleep Mode Application via UART The RI of module is used to wake up the host and AP_READY* will detect the sleep state of host (can be configured to high level or low level detection). -
Page 26: Usb Application Without Suspend Function
UMTS/HSPA Module Series UG96 Hardware Design Host Module USB_VBUS USB_DP USB_DP USB_DM USB_DM EINT Figure 4: USB Application with Suspend Function When the host’s USB bus returns to resume state, the module will be woken up. 3.5.1.3. USB Application without Suspend Function... -
Page 27: Minimum Functionality Mode
For detailed information about command AT+CFUN, please refer to document [1]. 3.6. Power Supply 3.6.1. Power Supply Pins UG96 provides four VBAT pins for connection with the external power supply. There are two separate voltage domains for VBAT. ⚫ Two VBAT_RF pins for module RF part. -
Page 28: Decrease Voltage Drop
UMTS/HSPA Module Series UG96 Hardware Design 59, 61, 62, 67~74, 79~82, 89~91, 100~102 3.6.2. Decrease Voltage Drop The power supply range of the module is 3.3V~4.3V. Please make sure that the input voltage will never drop below 3.3V. If the voltage drops to below 3.3V, the module will be turned off automatically. The following figure shows the voltage drop during burst transmission in 2G network. -
Page 29: Reference Design For Power Supply
UMTS/HSPA Module Series UG96 Hardware Design VBAT Module VBAT_RF VBAT_BB 100nF 33pF 10pF 100uF 100nF 33pF 10pF 100uF Figure 7: Star Structure of the Power Supply 3.6.3. Reference Design for Power Supply The power design for the module is very important, as the performance of module largely depends on the power source. -
Page 30: Monitor The Power Supply
When UG96 is in power off mode, it can be turned on to normal mode by driving the PWRKEY pin to a low level for at least 100ms. It is recommended to use an open drain/collector driver to control the PWRKEY. -
Page 31: Turn Off Module
UMTS/HSPA Module Series UG96 Hardware Design PWRKEY Close to S1 Figure 10: Turn on the Module Using Keystroke The turn on scenarios is illustrated as the following figure. NOTE ≥3.5s VBAT ≥100ms ≥1.3V PWRKEY (Input) ≤0.5V RESET_N >2.3s STATUS Module... -
Page 32: Turn Off Module Using At Command
UMTS/HSPA Module Series UG96 Hardware Design ⚫ Automatic shutdown: Turn off the module automatically if under-voltage or over-voltage is detected. 3.7.2.1. Turn off Module Using AT Command There are several different ways to turn off the module. It is recommended to turn off the module by command AT+QPOWD. - Page 33 PWRDWN_N is released. It is recommended to use an open drain/collector driver to control the PWRDWN_N. The level of STATUS pin is low after UG96 is turned off. A simple reference circuit is illustrated in the following figure.
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Page 34: Automatic Shutdown
UMTS/HSPA Module Series UG96 Hardware Design The emergency shutdown scenario is illustrated as the following figure. VBAT ≥100 PWRDWN_N STATUS Module Power-down procedure RUNNING Status Figure 15: Timing of Emergency Shutdown NOTE PWRDWN_N can only be used when turning off the module by command AT+QPOWD or the RESET_N pin fails. -
Page 35: Reset The Module
UMTS/HSPA Module Series UG96 Hardware Design NOTE The value of voltage threshold can be revised by AT command. Please refer to document [1] for details. 3.8. Reset the Module The RESET_N can be used to reset the module. The module can be reset by driving the RESET_N to a low-level voltage for more than 100ms and then releasing. -
Page 36: Rtc Interface
UG96. The capacitor is charged from the internal LDO of UG96 when there is power supply for the VBAT. A serial 1KΩ resistor has been placed on the application inside the module. It limits the input current of the capacitor. -
Page 37: Uart Interface
UMTS/HSPA Module Series UG96 Hardware Design The following figure shows the reference circuit for VRTC backup. VRTC Core Large Capacitance Capacitor Module Figure 19: RTC Supply from Capacitor In order to evaluate the capacitance of capacitor according to the backup time, the following parameters should be considered: ⚫... - Page 38 1.85 0.25 1.55 UG96 provides one 1.8V UART interface. A level translator should be used if customers’ application is equipped with a 3.3V UART interface, and TXS0108EPWR provided by Texas Instruments is recommended. The following figure shows a reference design.
- Page 39 Figure 21: Reference Circuit with Transistor Circuit The following figure is an example of connection between UG96 and PC. A voltage level translator and a RS-232 level translator chip must be inserted between module and PC, since the UART interface does not support the RS-232 level, while supports the 1.8V CMOS level only.
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Page 40: U)Sim Interface
UMTS/HSPA Module Series UG96 Hardware Design 3.3V VDD_EXT VCCA VCCB DCD_1.8V DCD_3.3V DIN1 DOUT1 TXD_1.8V TXD_3.3V DIN2 DOUT2 CTS_1.8V CTS_3.3V DIN3 DOUT3 DIN4 DOUT4 RI_1.8V RI_3.3V DIN5 DOUT5 R1OUTB RXD_1.8V RXD_3.3V ROUT1 RIN1 ROUT2 DTR_1.8V DTR_3.3V RIN2 ROUT3 RTS_1.8V RTS_3.3V... - Page 41 USIM_CLK Clock signal of (U)SIM card Specified ground for (U)SIM USIM_GND card UG96 supports (U)SIM card hot-plug via the USIM_PRESENCE pin. The following figure shows a reference design for (U)SIM interface with an 8-pin (U)SIM card connector. VDD_EXT USIM_VDD 100nF...
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Page 42: Usb Interface
(U)SIM card connector. 3.12. USB Interface UG96 contains one integrated Universal Serial Bus (USB) interface which complies with the USB 2.0 specification and supports high speed (480Mbps) and full speed (12Mbps) modes. The USB interface is... - Page 43 UMTS/HSPA Module Series UG96 Hardware Design used for AT command communication, data transmission, software debugging and firmware upgrade. The following table shows the pin definition of USB interface. Table 13: Pin Definition of USB Interface Pin Name Pin No. Description...
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Page 44: Pcm And I2C Interfaces
3. USB interface supports software debugging and firmware upgrade by default. 3.13. PCM and I2C Interfaces UG96 provides one Pulse Code Modulation (PCM) digital interface for audio design, which supports the following modes. It also supports one I2C interface. ⚫... - Page 45 CLK rising edge after the PCM_SYNC pulse rising edge. The period of the PCM_SYNC signal (frame) lasts for data word bit +1 clock pulses. UG96’s firmware has integrated the configurations on NAU8814 /ALC5616/MAX9860 application with I2C interface. AT+QDAC command is used to configure the external codec chip linked with PCM interface, and refer to document [1] for more details.
- Page 46 1. It is recommended to reserve RC (e.g. R=22Ω, C=22pF) circuit on the PCM lines, especially for PCM_CLK. 2. UG96 module provides a digital clock output (CLK_OUT) for an external audio codec, the CLK_OUT function is disabled by default. When CLK_OUT is required, AT command is used to provide the...
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Page 47: Network Status Indication
UMTS/HSPA Module Series UG96 Hardware Design codec with a 13/26MHz clock generated from the module. Please refer to document [1] for details. If unused, keep it open. 3. A RC (e.g. R=22Ω, C=47pF) circuit is recommended to be reserved on CLK_OUT line. If external audio CODEC is MAX9860, the RC circuit should be mounted;... -
Page 48: Status
UMTS/HSPA Module Series UG96 Hardware Design 3.15. STATUS The STATUS pin is used to indicate the operation status of UG96 module. It will output high level when the module is powered on. The following table describes the pin definition of STATUS. -
Page 49: Antenna Interface
UMTS/HSPA Module Series UG96 Hardware Design Antenna Interface UG96 includes a GSM/UMTS antenna interface. The RF interface has an impedance of 50Ω. 4.1. GSM/UMTS Antenna Interface 4.1.1. Pin Definition The pin definition of the RF antenna is shown below. Table 18: Pin Definition of RF Antenna Pin Name Pin No. -
Page 50: Reference Design Of Rf Antenna Interface
Figure 32: Reference Circuit of RF Antenna Interface UG96 provides an RF antenna pad for customers’ antenna connection. The RF trace in host PCB connected to the module’s RF antenna pad should be micro-strip line or other types of RF traces, whose characteristic impendence should be close to 50Ω. - Page 51 UMTS/HSPA Module Series UG96 Hardware Design Figure 33: Microstrip Line Design on a 2-layer PCB Figure 34: Coplanar Waveguide Line Design on a 2-layer PCB Figure 35: Coplanar Waveguide Line Design on a 4-layer PCB (Layer 3 as Reference Ground)
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Page 52: Antenna Installation
UMTS/HSPA Module Series UG96 Hardware Design Figure 36: Coplanar Waveguide Line Design on a 4-layer PCB (Layer 4 as Reference Ground) In order to ensure RF performance and reliability, the following principles should be complied with in RF layout design: ⚫... -
Page 53: Recommended Rf Connector For Antenna Installation
UMTS/HSPA Module Series UG96 Hardware Design DCS1800/PCS1900 Cable insertion loss <1.5dB UMTS1900/2100 Table 21: Antenna Requirements Type Requirements GSM 4-band: 850/900/1800/1900MHz Frequency Range UMTS 5-band: 800/850/900/1900/2100MHz VSWR <2:1 recommended, <3:1 acceptable Gain (dBi) 1 typical Max Input Power (W) Input Impedance (Ω) - Page 54 UMTS/HSPA Module Series UG96 Hardware Design Figure 38: Mechanicals of U.FL-LP Connectors The following figure describes the space factor of mated connector Figure 39: Space Factor of Mated Connector (Unit: mm) For more details, please visit http://www.hirose.com. UG96_Hardware_Design 53 / 76...
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Page 55: Electrical, Reliability And Radio Characteristics
UMTS/HSPA Module Series UG96 Hardware Design Electrical, Reliability and Radio Characteristics 5.1. Absolute Maximum Ratings Absolute maximum ratings for power supply and voltage on digital and analog pins of the module are listed in the following table. Table 22: Absolute Maximum Ratings Parameter Min. -
Page 56: Operation And Storage Temperatures
UMTS/HSPA Module Series UG96 Hardware Design Voltage drop during Maximum power control burst transmission level on GSM900 Peak supply current Maximum power control (during transmission VBAT level on GSM900 slot) USB_VBUS USB detection 5.25 5.3. Operation and Storage Temperatures The operation and storage temperatures are listed in the following table. - Page 57 UMTS/HSPA Module Series UG96 Hardware Design Table 25: Current Consumption Parameter Description Conditions Min. Typ. Max. Unit OFF state Power down supply current Sleep (USB disconnected) 1.13 @DRX=2 GSM/GPRS Sleep (USB disconnected) 1.10 supply current @DRX=5 Sleep (USB disconnected) 1.00...
- Page 58 UMTS/HSPA Module Series UG96 Hardware Design DCS1800 4DL/2UL PCL=0 DCS1800 3DL/3UL PCL=0 DCS1800 2DL/4UL PCL=0 PCS1900 1DL/1UL PCL=0 PCS1900 5DL/1UL PCL=0 PCS1900 4DL/2UL PCL=0 PCS1900 3DL/3UL PCL=0 PCS1900 2DL/4UL PCL=0 GSM850 1DL/1UL PCL=8 GSM850 5DL/1UL PCL=8 GSM850 4DL/2UL PCL=8 GSM850 3DL/3UL PCL=8...
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Page 59: Rf Output Power
GSM voice call DCS1800 @PCL=0 PCS1900 @PCL=0 UMTS2100 @max power UMTS1900 @max power WCDMA voice call UMTS900 @max power UMTS850/800 @max power 5.5. RF Output Power The following table shows the RF output power of UG96 module. UG96_Hardware_Design 58 / 76... -
Page 60: Rf Receiving Sensitivity
In GPRS 4 slots TX mode, the maximum output power is reduced by 3.0dB. The design conforms to the GSM specification as described in Chapter 13.16 of 3GPP TS 51.010-1. 5.6. RF Receiving Sensitivity The following table shows the conducted RF receiving sensitivity of UG96 module. Table 27: Conducted RF Receiving Sensitivity Frequency Receive Sensitivity (Typ.) -
Page 61: Electrostatic Discharge
UMTS/HSPA Module Series UG96 Hardware Design DCS1800 -110dBm PCS1900 -108dBm UMTS850/800 -110dBm UMTS900 -110dBm UMTS1900 -109.5dBm UMTS2100 -110.5dBm 5.7. Electrostatic Discharge The module is not protected against electrostatics discharge (ESD) in general. Consequently, it is subject to ESD handling precautions that typically apply to ESD sensitive components. Proper ESD handling and packaging procedures must be applied throughout the processing, handling and operation of any application that incorporates the module. -
Page 62: Mechanical Dimensions
UMTS/HSPA Module Series UG96 Hardware Design Mechanical Dimensions This chapter describes the mechanical dimensions of the module. All dimensions are measured in millimeter (mm). The tolerances for dimensions without tolerance values are ± 0.05mm. 6.1. Mechanical Dimensions of the Module... - Page 63 UMTS/HSPA Module Series UG96 Hardware Design Figure 41: Module Bottom Dimensions (Top View) UG96_Hardware_Design 62 / 76...
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Page 64: Recommended Footprint Design
UMTS/HSPA Module Series UG96 Hardware Design 6.2. Recommended Footprint Design Figure 42: Recommended Footprint (Top View) NOTES 1. For easy maintenance of the module, please keep about 3mm between the module and other components in the host PCB. 2. All RESERVED pins should be kept open and MUST NOT be connected to ground. -
Page 65: Top And Bottom Views Of The Module
Figure 43: Top View of the Module Figure 44: Bottom View of the Module NOTE These are renderings of UG96 module. For authentic dimension and appearance, please refer to the module that you receive from Quectel. UG96_Hardware_Design 64 / 76... -
Page 66: Storage, Manufacturing And Packaging
Storage, Manufacturing and Packaging 7.1. Storage UG96 is stored in the vacuum-sealed bag. It is rated at MSL 3 and its storage restrictions are shown as below. Shelf life in the vacuum-sealed bag: 12 months at <40º C/<90%RH. After the vacuum-sealed bag is opened, devices that will be subjected to reflow soldering or other high temperature processes must be: Mounted within 168 hours at the factory conditions of ≤30ºC... -
Page 67: Manufacturing And Soldering
UMTS/HSPA Module Series UG96 Hardware Design 7.2. Manufacturing and Soldering Push the squeegee to apply the solder paste on the surface of stencil, thus making the paste fill the stencil openings and then penetrate to the PCB. The force on the squeegee should be adjusted properly so as to produce a clean stencil surface on a single pass. -
Page 68: Packaging
UG96 Hardware Design 7.3. Packaging UG96 is packaged in a vacuum-sealed bag which is ESD protected. The bag should not be opened until the devices are ready to be soldered onto the application. The reel is 330mm in diameter and each reel contains 250 modules. The following figures show the packaging details, measured in mm. - Page 69 UMTS/HSPA Module Series UG96 Hardware Design 48.5 Cover tape Direction of feed +0.20 44.5 -0.00 Figure 47: Reel Dimensions Table 29: Reel Packing Model Name MOQ for MP Minimum Package: 250pcs Minimum Package x 4=1000pcs Size: 370mm × 350mm × 56mm Size: 380mm ×...
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Page 70: Appendix A References
Document Name Remark Quectel_WCDMA_UGxx_AT_Commands_Manual UGxx AT commands manual Quectel_UMTS<E_EVB_User_Guide UMTS<E EVB user guide Quectel_UG96_Reference_Design UG96 reference design UG96, UG95 and M95 R2.0 Quectel_UG96&UG95&M95 R2.0_Reference_Design compatible reference design Quectel_UG96&UG95&M95 R2.0_Compatible_ UG96, UG95 and M95 R2.0 Design compatibility design specification Quectel_Module_Secondary_SMT_User_Guide Module secondary SMT user guide... - Page 71 UMTS/HSPA Module Series UG96 Hardware Design Data Terminal Equipment (typically computer, external controller) Data Terminal Ready Discontinuous Transmission Enhanced Full Rate EGSM Extended GSM900 band (includes standard GSM900 band) Electrostatic Discharge Full Rate GMSK Gaussian Minimum Shift Keying Global Positioning System...
- Page 72 UMTS/HSPA Module Series UG96 Hardware Design PBCCH Packet Broadcast Control Channel Printed Circuit Board Protocol Data Unit Point-to-Point Protocol Phase Shift Keying Pulse Width Modulation Quadrature Amplitude Modulation QPSK Quadrature Phase Shift Keying Radio Frequency RHCP Right Hand Circularly Polarized...
- Page 73 UMTS/HSPA Module Series UG96 Hardware Design Vmin Minimum Voltage Value Maximum Input High Level Voltage Value Minimum Input High Level Voltage Value Maximum Input Low Level Voltage Value Minimum Input Low Level Voltage Value Absolute Maximum Input Voltage Value Absolute Minimum Input Voltage Value...
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Page 74: Appendix B Gprs Coding Schemes
UMTS/HSPA Module Series UG96 Hardware Design Appendix B GPRS Coding Schemes Table 32: Description of Different Coding Schemes Radio Block Data Code Pre-coded Coded Punctured Scheme excl.USF and Tail Rate Rate Bits Bits Kb/s CS-1 9.05 CS-2 13.4 CS-3 15.6 CS-4 21.4... -
Page 75: Appendix C Gprs Multi-Slot Classes
UMTS/HSPA Module Series UG96 Hardware Design Appendix C GPRS Multi-slot Classes Thirty-nine classes of GPRS multi-slot modes are defined for MS in GPRS specification. Multi-slot classes are product dependant, and determine the maximum achievable data rates in both the uplink and downlink directions. - Page 76 UMTS/HSPA Module Series UG96 Hardware Design UG96_Hardware_Design 75 / 76...
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Page 77: Appendix D Edge Modulation And Coding Schemes
UMTS/HSPA Module Series UG96 Hardware Design Appendix D EDGE Modulation and Coding Schemes Table 34: EDGE Modulation and Coding Schemes Coding Scheme Modulation Coding Family 1 Timeslot 2 Timeslot 4 Timeslot CS-1: GMSK 9.05kbps 18.1kbps 36.2kbps CS-2: GMSK 13.4kbps 26.8kbps 53.6kbps...