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                                                          Smart LTE Module Series 

                                                                                                          SC600Y&SC600T Hardware Design

 

SC600Y&SC600T_Hardware_Design                                                                                                    118 / 128

 

 
 
 

8

 

Mechanical Dimensions 

 
This  chapter  describes  the  mechanical  dimensions  of  the  module.  All  dimensions  are  measured  in 
millimeter (mm), and the tolerances for dimensions without tolerance values are ±0.05mm. 
 

8.1. Mechanical Dimensions of the Module 

S ide view

Top view

P in1

 

Figure 44: Module Top and Side Dimensions 

 

Summary of Contents for SC600T-EM Series

Page 1: ...SC600Y SC600T Hardware Design Smart LTE Module Series Rev SC600Y SC600T_Hardware_Design_V1 0 Date 2019 07 01 Status Preliminary www quectel com ...

Page 2: ...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 ALL INFORMATION SUPPLIED HEREIN IS SUBJECT TO CHANGE ...

Page 3: ...Smart LTE Module Series SC600Y SC600T Hardware Design SC600Y SC600T_Hardware_Design 2 128 About the Document History Revision Date Author Description 1 0 2019 07 01 Light WANG Rock CHEN Initial ...

Page 4: ... 3 4 Power Supply 43 3 4 1 Power Supply Pins 43 3 4 2 Decrease Voltage Drop 43 3 4 3 Reference Design for Power Supply 44 3 5 Turn on and off Scenarios 45 3 5 1 Turn on Module Using the PWRKEY 45 3 5 2 Turn off Module 47 3 6 VRTC Interface 48 3 7 Power Output 49 3 8 Battery Charge and Management 49 3 9 USB Interface 51 3 10 UART Interfaces 54 3 11 U SIM Interfaces 56 3 12 SD Card Interface 58 3 13...

Page 5: ...n Guidelines 91 6 Antenna Interfaces 92 6 1 Main Rx diversity Antenna Interfaces 92 6 1 1 Main and Rx diversity Antenna Interfaces Reference Design 95 6 1 2 Reference Design of RF Layout 96 6 2 Wi Fi BT Antenna Interface 98 6 3 GNSS Antenna Interface 99 6 3 1 Recommended Circuit for Passive Antenna 99 6 3 2 Recommended Circuit for Active Antenna 100 6 4 Antenna Installation 100 6 4 1 Antenna Requi...

Page 6: ...gn 5 128 9 Storage Manufacturing and Packaging 122 9 1 Storage 122 9 2 Manufacturing and Soldering 123 9 3 Packaging 124 10 Appendix A References 126 11 Appendix B GPRS Coding Schemes 129 12 Appendix C GPRS Multi slot Classes 130 13 Appendix D EDGE Modulation and Coding Schemes 132 ...

Page 7: ...ABLE 19 PIN DEFINITION OF SPI INTERFACES 65 TABLE 20 PIN DEFINITION OF ADC INTERFACES 65 TABLE 21 PIN DEFINITION OF VIBRATOR DRIVE INTERFACE 66 TABLE 22 PIN DEFINITION OF LCM INTERFACES 66 TABLE 23 PIN DEFINITION OF TOUCH PANEL INTERFACES 70 TABLE 24 PIN DEFINITION OF CAMERA INTERFACES 72 TABLE 25 MIPI TRACE LENGTH INSIDE THE MODULE 77 TABLE 26 PIN DEFINITION OF FLASHLIGHT INTERFACES 79 TABLE 27 P...

Page 8: ...600T JP RF OUTPUT POWER 111 TABLE 50 SC600Y EM SC600T EM RF OUTPUT POWER 112 TABLE 51 SC600Y NA SC600T NA RF OUTPUT POWER 113 TABLE 52 SC600Y JP SC600T JP RF RECEIVING SENSITIVITY 114 TABLE 53 SC600Y EM SC600T EM RF RECEIVING SENSITIVITY 115 TABLE 54 SC600Y NA SC600T NA RF RECEIVING SENSITIVITY 116 TABLE 55 ESD CHARACTERISTICS TEMPERATURE 25 C HUMIDITY 45 117 TABLE 56 RECOMMENDED THERMAL PROFILE P...

Page 9: ... CIRCUIT FOR VIBRATOR CONNECTION 66 FIGURE 20 REFERENCE CIRCUIT DESIGN FOR LCM0 INTERFACE 68 FIGURE 21 REFERENCE CIRCUIT DESIGN FOR LCM1 INTERFACE 69 FIGURE 22 REFERENCE DESIGN OF LCM1 EXTERNAL BACKLIGHT DRIVING CIRCUIT 70 FIGURE 23 REFERENCE CIRCUIT DESIGN FOR TOUCH PANEL INTERFACES 71 FIGURE 24 REFERENCE CIRCUIT DESIGN FOR TWO CAMERA APPLICATIONS 75 FIGURE 25 REFERENCE CIRCUIT DESIGN FOR THREE C...

Page 10: ...IONS OF THE U FL R SMT CONNECTOR UNIT MM 101 FIGURE 42 MECHANICALS OF U FL LP CONNECTORS 102 FIGURE 43 SPACE FACTOR OF MATED CONNECTOR UNIT MM 102 FIGURE 44 MODULE TOP AND SIDE DIMENSIONS 118 FIGURE 45 MODULE BOTTOM DIMENSIONS TOP VIEW 119 FIGURE 46 RECOMMENDED FOOTPRINT TOP VIEW 120 FIGURE 47 TOP VIEW OF SC600Y SC600T MODULES 121 FIGURE 48 BOTTOM VIEW OF SC600Y SC600T MODULES 121 FIGURE 49 RECOMM...

Page 11: ...e transmitter module s are installed and operating The modules should be transmitting and the evaluation should confirm that the module s intentional emissions are compliant i e fundamental and out of band emissions The host manufacturer must verify that there are no additional unintentional emissions other than what is permitted in Part 15 Subpart B or emissions are complaint with the transmitter...

Page 12: ... 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 ...

Page 13: ...he device for operation in the band 5150 5250 MHz is only for indoor use to reduce the potential for harmful interference to co channel mobile satellite systems The maximum antenna gain permitted for devices in the bands 5250 5350 MHz and 5470 5725 MHz shall comply with the e i r p limit and The maximum antenna gain permitted for devices in the band 5725 5825 MHz shall comply with the e i r p limi...

Page 14: ...ign SC600Y SC600T_Hardware_Design 13 128 This equipment complies with FCC IC radiation exposure limits set forth for an uncontrolled environment This equipment should be installed and operated with minimum distance 20 cm between the radiator your body ...

Page 15: ...s and hardware interfaces 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 SC600Y SC600T modules Associated with application note and user guide customers can use SC600Y SC600T modules to design and set up mobile applications easily ...

Page 16: ...rcraft Please consult the airline staff for more restrictions on the use of wireless devices on boarding the aircraft Wireless devices may cause interference on sensitive medical equipment so please be aware of the restrictions on the use of wireless devices when in hospitals clinics or other healthcare facilities Cellular terminals or mobiles operating over radio signals and cellular network cann...

Page 17: ...GPS GLONASS BeiDou satellite positioning systems Support multiple audio and video codecs Built in high performance AdrenoTM 506 graphics processing unit Provide multiple audio and video input output interfaces as well as abundant GPIO interfaces SC600Y SC600T modules are composed of standard version SC600Y XX and high performance version SC600T XX They are available in SC600Y EM SC600T EM SC600Y N...

Page 18: ...00T NA Frequency Bands Type Frequency Bands LTE FDD B2 B4 B5 B7 B12 B13 B14 B17 B25 B26 B66 B71 LTE TDD B41 WCDMA B2 B4 B5 TD SCDMA EVDO CDMA GSM Wi Fi 802 11a b g n ac 2402MHz 2482MHz 5180MHz 5825MHz BT4 2 LE 2402MHz 2480MHz GNSS GPS 1575 42MHz 1 023MHz GLONASS 1597 5MHz 1605 8MHz BeiDou 1561 098MHz 2 046MHz Table 3 SC600Y JP SC600T JP Frequency Bands Type Frequency Bands LTE FDD B1 B3 B5 B8 B11 ...

Page 19: ...LTE FDD LTE TDD WCDMA TD SCDMA EVDO CDMA GSM Wi Fi 802 11a b g n ac 2402MHz 2482MHz 5180MHz 5825MHz BT4 2 LE 2402MHz 2480MHz GNSS means under development SC600Y SC600T are SMD type modules which can be embedded into applications through its 323 pins including 152 LCC pads and 171 LGA pads With a compact profile of 43 0mm 44 0mm 2 85mm SC600Y SC600T can meet almost all requirements for M2M applicat...

Page 20: ...dressing designed for 600MHz SC600T XX AdrenoTM 506 with 64 bit addressing designed for 650MHz Memory 16GB eMMC 2GB LPDDR3 default 32GB eMMC 4GB LPDDR3 optional Operating System Android OS 9 0 Power Supply VBAT Supply Voltage 3 55V 4 4V Typical 3 8V Transmitting Power Class 4 33dBm 2dB for GSM850 Class 4 33dBm 2dB for EGSM900 Class 1 30dBm 2dB for DCS1800 Class 1 30dBm 2dB for PCS1900 Class E2 27d...

Page 21: ...and 8 PSK for different MCS Modulation and Coding Scheme Downlink coding schemes CS 1 4 and MCS 1 9 Uplink coding schemes CS 1 4 and MCS 1 9 Max 296Kbps DL 236 8Kbps UL WLAN Features 2 4GHz 5GHz support 802 11a b g n ac maximally up to 433Mbps Support AP and STA mode Bluetooth Features BT4 2 LE GNSS Features GPS GLONASS BeiDou SMS Text and PDU mode Point to point MO and MT SMS cell broadcast LCM I...

Page 22: ...re debugging and firmware upgrade UART Interfaces 4 UART Interfaces UART5 UART6 UART4 and UART2 UART5 UART6 4 wire UART interface with RTS CTS hardware flow control baud rate up to 4Mbps UART4 2 wire UART interface UART2 2 wire UART interface used for debugging Vibrator drive interface Drive ERM vibrator SD Card Interface Support SD 3 0 Support SD card hot plug U SIM Interfaces 2 U SIM interfaces ...

Page 23: ...rage temperature range 40 C 90 C Firmware Upgrade Over USB interface RoHS All hardware components are fully compliant with EU RoHS directive 1 1 Within operation temperature range the module is 3GPP compliant 2 2 Within extended temperature range the module remains the ability to establish and maintain a voice SMS data transmission emergency call etc There is no unrecoverable malfunction There are...

Page 24: ... interfaces Audio interfaces Baseband Tranceiver WCN LPDDR eMMC USB_VBUS Battery Flash WLED Motor Charge OTG Boost DIP XO ANT_ GNSS ANT_WiFi BT GPIOs I2C SD 3 0 UART 2 U SIM USB 2 0 3 0 3 CAM 2 TP 2 LCM 2 SPI EAR SPK MICs ADCs HK ADC Flash Haptics RFCLK BBCLK MEM Multimedia Connectivity Air Interface Porcessors Codec Power Signal Power Function SAW 48MHz 5G FEM Duplexs PA PAM SAW LNA SAW SAW Switc...

Page 25: ...on Board In order to help customers develop applications with SC600Y SC600T conveniently Quectel supplies the evaluation board USB to RS232 converter cable USB Type C data cable power adapter earphone antenna and other peripherals to control or test the module For more details please refer to document 1 ...

Page 26: ...atform The following chapters provide the detailed description of pins interfaces listed below Power supply VRTC interface Charging interface USB interface UART interfaces U SIM interfaces SD card interface GPIO interfaces I2C interfaces I2S interfaces SPI interfaces ADC interfaces Vibrator drive interface LCM interfaces TP touch panel interfaces Camera interfaces Flashlight interfaces Sensor inte...

Page 27: ...67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 109 111 112 113 114 115 116 117 118 120 121 122 123 124 125 126 128 129 130 131 132 133 134 135 136 137 138 139 141 142 143 144 145 146 147 148 149 150 151 152 127 140 153 154 155 156 157 158 159 160 161 162 163 164 165 166 119 GND POWER AUDIO USB U SIM SD TP LCM CAMER...

Page 28: ...teristics Table 7 Pin Description Power Supply Pin Name Pin No I O Description DC Characteristics Comment VBAT 36 37 38 PI PO Power supply for the module Vmax 4 4V Vmin 3 55V Vnorm 3 8V It must be able to provide sufficient current up to 3 0A It is suggested to use a TVS to increase voltage surge withstand capability VDD_RF 1 2 PO Connect to external bypass capacitors to eliminate voltage fluctuat...

Page 29: ...ed keep this pin open LDO6_1P8 10 PO 1 8V output power supply Vnorm 1 8V IOmax 300mA Power supply for I O VDD of cameras LCDs and sensors Add a 1 0uF 2 2uF bypass capacitor if used If unused keep this pin open LDO17_2P85 12 PO 2 85V output power supply Vnorm 2 85V IOmax 300mA Power supply for cameras and LCDs Add a 1 0uF 4 7uF bypass capacitor if used If unused keep this pin open LDO23_1P2 15 PO 1...

Page 30: ... 4 18 20 31 34 35 40 43 47 56 62 87 98 101 112 125 128 130 133 135 148 150 159 163 170 173 176 182 193 195 219 225 243 257 323 Ground Audio Interfaces Pin Name Pin No I O Description DC Characteristics Comment MIC_BIAS 167 AO Microphone bias voltage VO 1 6V 2 85V MIC1_P 44 AI Microphone positive input for channel 1 MIC1_N 45 AI Microphone negative input for channel 1 MIC_GND 168 Microphone referen...

Page 31: ...escription DC Characteristics Comment USB_VBUS 41 42 PI PO Charging power input Power supply output for OTG device USB charger insertion detection Vmax 10V Vmin 4 0V Vnorm 5 0V USB_DM 33 IO USB 2 0 differential data bus minus USB 2 0 standard compliant 90Ω differential impedance USB_DP 32 IO USB 2 0 differential data bus plus USB_ID 30 AI USB ID detection High level by default USB_SS_RX _P 171 AI ...

Page 32: ... U SIM1 card hot plug detection VILmax 0 63V VIHmin 1 17V Active Low Require external pull up to 1 8V If unused keep this pin open Disabled by default and can be enabled through software configuration USIM1_RST 144 DO U SIM1 card reset signal VOLmax 0 4V VOHmin 0 8 USIM1_VDD USIM1_CLK 143 DO U SIM1 card clock signal VOLmax 0 4V VOHmin 0 8 USIM1_VDD USIM1_DATA 142 IO U SIM1 card data signal VILmax ...

Page 33: ... 0 8 USIM2_VDD USIM2_DATA 209 IO U SIM2 card data signal VILmax 0 2 USIM2_VDD VIHmin 0 7 USIM2_VDD VOLmax 0 4V VOHmin 0 8 USIM2_VDD USIM2_VDD 210 PO U SIM2 card power supply 1 8V U SIM Vmax 1 85V Vmin 1 75V 2 95V U SIM Vmax 3 1V Vmin 2 8V Either 1 8V or 2 95V U SIM card is supported UART Interfaces Pin Name Pin No I O Description DC Characteristics Comment UART2_TXD 5 DO UART2 transmit data Debug ...

Page 34: ... 17V SD Card Interface Pin Name Pin No I O Description DC Characteristics Comment SD_CLK 70 DO High speed digital clock signal of SD card 1 8V SD card VOLmax 0 45V VOHmin 1 4V 2 95V SD card VOLmax 0 37V VOHmin 2 2V SD_CMD 69 IO Command signal of SD card 1 8V SD card VILmax 0 58V VIHmin 1 27V VOLmax 0 45V VOHmin 1 4V 2 95V SD card VILmax 0 73V VIHmin 1 84V VOLmax 0 37V VOHmin 2 2V SD_DATA0 68 IO Hi...

Page 35: ...pt signal of touch panel TP0 VILmax 0 63V VIHmin 1 17V 1 8V power domain TP0_I2C_SCL 140 OD I2C clock signal of touch panel TP0 1 8V power domain TP0_I2C_SDA 206 OD I2C data signal of touch panel TP0 1 8V power domain TP1_RST 136 DO Reset signal of touch panel TP1 VOLmax 0 45V VOHmin 1 35V 1 8V power domain Active low TP1_INT 137 DI Interrupt signal of touch panel TP1 VILmax 0 63V VIHmin 1 17V 1 8...

Page 36: ...VILmax 0 63V VIHmin 1 17V 1 8V power domain DSI0_CLK_N 116 AO LCD0 MIPI clock signal negative DSI0_CLK_P 115 AO LCD0 MIPI clock signal positive DSI0_LN0_N 118 AO LCD0 MIPI lane 0 data signal negative DSI0_LN0_P 117 AO LCD0 MIPI lane 0 data signal positive DSI0_LN1_N 120 AO LCD0 MIPI lane 1 data signal negative DSI0_LN1_P 119 AO LCD0 MIPI lane 1 data signal positive DSI0_LN2_N 122 AO LCD0 MIPI lane...

Page 37: ...tive DSI1_LN3_P 110 AO LCD1 MIPI lane 3 data signal positive Camera Interfaces Pin Name Pin No I O Description DC Characteristics Comment CSI0_CLK_N 89 AI MIPI clock signal of rear camera negative CSI0_CLK_P 88 AI MIPI clock signal of rear camera positive CSI0_LN0_N 91 AI MIPI lane 0 data signal of rear camera negative CSI0_LN0_P 90 AI MIPI lane 0 data signal of rear camera positive CSI0_LN1_N 93 ...

Page 38: ...ignal of depth camera negative CSI1_LN1_P 187 AI MIPI lane 1 data signal of depth camera positive CSI1_LN2_N 190 AI MIPI lane 2 data signal of depth camera negative Can be multiplexed into differential data of the fourth camera negative CSI1_LN2_P 189 AI MIPI lane 2 data signal of depth camera positive Can be multiplexed into differential data of the fourth camera positive CSI1_LN3_N 192 AI MIPI l...

Page 39: ...signal of front camera positive CSI2_LN3_N 86 AI MIPI lane 3 data signal of front camera negative CSI2_LN3_P 85 AI MIPI lane 3 data signal of front camera positive MCAM_MCLK 99 DO Master clock signal of rear camera VOLmax 0 45V VOHmin 1 35V 1 8V power domain SCAM_MCLK 100 DO Master clock signal of front camera VOLmax 0 45V VOHmin 1 35V 1 8V power domain MCAM_RST 74 DO Reset signal of rear camera V...

Page 40: ... DCAM_I2C_ SCL 196 OD I2C clock signal of depth camera 1 8V power domain Keypad Interfaces Pin Name Pin No I O Description DC Characteristics Comment PWRKEY 39 DI Turn on off the module VILmax 0 63V VIHmin 1 17V Pull up to 1 8V internally Active low VOL_UP 146 DI Volume up VILmax 0 63V VIHmin 1 17V If unused keep this pin open VOL_ DOWN 147 DI Volume down VILmax 0 63V VIHmin 1 17V If unused keep t...

Page 41: ...ery voltage detection minus Must be connected Antenna Interfaces Pin Name Pin No I O Description DC Characteristics Comment ANT_MAIN 19 IO Main antenna interface 50Ω impedance ANT_DRX 149 AI Diversity antenna interface ANT_GNSS 134 AI GNSS antenna interface ANT_WIFI BT 129 IO Wi Fi BT antenna interface GPIO Interfaces Pin Name Pin No I O Description DC Characteristics Comment GPIO_0 248 IO GPIO VI...

Page 42: ...I_CLK 59 DO Clock signal of SPI interface Can be multiplexed into UART6_RTS SPI_MOSI 60 DO Master out slave in of SPI interface Can be multiplexed into UART6_TXD SPI_MISO 61 DI Master in salve out of SPI interface Can be multiplexed into UART6_RXD FP_SPI_CS 203 DO Chip selection signal of SPI interface Can be multiplexed into I2S_WS FP_SPI_CLK 250 DO Clock signal of SPI interface Can be multiplexe...

Page 43: ... DC Characteristics Comment USB_BOOT 57 DI Force the module to enter into emergency download mode Pulled up to LDO5_1P8 during power up will force the module to enter into emergency download mode Other Interfaces Pin Name Pin No I O Description DC Characteristics Comment BAT_ID 17 AI Battery type detection If unused keep this pin open BAT_THERM 29 AI Battery temperature detection Internally pulled...

Page 44: ...tuation of RF part VPH_PWR pins can supply power for peripherals and it can provide a maximum continuous current of 1A approximately 3 4 2 Decrease Voltage Drop The power supply range of the module is from 3 55V to 4 4V and the recommended value is 3 8V The power supply performance such as load capacity voltage ripple etc directly influences the module s performance and stability Under ultimate co...

Page 45: ...F C7 33pF C8 10pF C2 100nF C5 NM C3 33pF C4 10pF D1 VDD_RF VPH_PWR C10 100nF C11 33pF C12 10pF C9 NM Figure 4 Star Structure of Power Supply 3 4 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 The power supply of SC600Y SC600T should be able to provide sufficient current up to 3A at least By defa...

Page 46: ...opted please make sure the charging function is disabled by software or connect VBAT to Schottky diode in series to avoid the reverse current to the power supply chip 3 When the battery power is reduced to 0 the system will trigger automatic shutdown so the design of power supply should be consistent with the configuration of fuel gauge driver 3 5 Turn on and off Scenarios 3 5 1 Turn on Module Usi...

Page 47: ...R2 Q1 R3 1K Figure 6 Turn on the Module Using Driving Circuit Another way to control the PWRKEY is using a button directly A TVS component is indispensable to be placed nearby the button for ESD protection A reference circuit is shown in the following figure PWRKEY S1 Close to S1 TVS 1K Figure 7 Turn on the Module Using Keystroke ...

Page 48: ...fferent from the above figure when the module powers on for the first time 2 Make sure that VBAT is stable before pulling down PWRKEY pin The recommended time between them is no less than 30ms PWRKEY cannot be pulled down all the time 3 5 2 Turn off Module Pull down PWRKEY for at least 1s and then choose to turn off the module when the prompt window comes up Another way to turn off the module is t...

Page 49: ...lls according to application demands The following reference circuit design when an external battery is utilized for powering RTC Coin Cell Module RTC Core VRTC Figure 10 RTC Powered by Coin Cell If RTC is ineffective it can be synchronized through network after the module is powered on 2 0V 3 25V input voltage range and 3 0V typical value for VRTC when VBAT is disconnected When powered by VBAT th...

Page 50: ..._LDO11 2 95 800 USIM1_VDD 1 8 2 95 50 USIM2_VDD 1 8 2 95 50 3 8 Battery Charge and Management SC600Y SC600T modules support a fully programmable switch mode Li ion battery charge function It can charge single cell Li ion and Li polymer battery The battery charger of SC600Y SC600T modules supports trickle charging pre charge constant current charging and constant voltage charging modes which optimi...

Page 51: ... PO Charging power input Power supply output for OTG device USB charger insertion detection Vmax 10V Vmin 4 0V Vnorm 5 0V VBAT 36 37 38 PI PO Power supply for the module Vmax 4 4V Vmin 3 55V Vnorm 3 8V BAT_ID 17 AI Battery type detection If unused keep this pin open BAT_PLUS 27 AI Differential input signal of battery voltage detection plus Must be connected BAT_MINUS 28 AI Differential input signa...

Page 52: ...en different batteries are utilized the charging and discharging curve has to be modified correspondingly so as to achieve the best effect If thermistor is not available in the battery or adapter is utilized for powering the module then there is only a need for VBAT and GND connection In this case the system may be unable to detect the battery which will cause power on failure In order to avoid th...

Page 53: ...26 DO USB Type C switch control USB_OPT 217 AI Type C Micro USB select control Float select Type C Connect 1K to GND select Micro USB USB_VBUS can be powered by USB power or adapter It is used for USB connection detection and power supply input for battery charging Its input voltage ranges from 4 0V to 10 0V and the typical value is 5 0V SC600Y SC600T modules support charging management for a sing...

Page 54: ...sure USB performance please follow the following principles while designing USB interface It is important to route the USB signal traces as differential pairs with total grounding The impedance of USB differential trace is 90Ω Pay attention to the influence of junction capacitance of ESD protection devices on USB data lines Typically the capacitance value should be less than 2pF for USB 2 0 and le...

Page 55: ...er domain UART6 4 wire UART interface hardware flow control supported multiplexed from SPI interface UART2 2 wire UART interface used for debugging UART4 2 wire UART interface The following table shows the pin definition of UART interfaces Table 12 Pin Definition of UART Interfaces Pin Name Pin No I O Description Comment UART2_TXD 5 DO UART2 transmit data Debug port by default 1 8V power domain If...

Page 56: ... a 4 wire UART interface with 1 8V power domain A level translator chip should be used if customers application is equipped with a 3 3V UART interface A level translator chip TXS0104EPWR provided by Texas Instruments is recommended The following figure shows a reference design VCCA VCCB OE A1 A2 A3 A4 GND B1 B2 B3 B4 LDO5_1P8 UART 5_ RTS UART5_ RXD UART5_ CTS UART5_ TXD RXD _3 3V CTS _3 3V TXD _3 ...

Page 57: ...ar to UART5 Please refer to UART5 reference circuit design for UART2 UART4 and UART6 s 3 11 U SIM Interfaces SC600Y SC600T provide two U SIM interfaces which both meet ETSI and IMT 2000 requirements Dual SIM Dual Standby is supported by default Both 1 8V and 2 95V U SIM cards are supported and the U SIM interfaces are powered by the dedicated low dropout regulators from SC600Y SC600T modules Table...

Page 58: ... card data signal Pull up to USIM2_VDD with a 10K resistor USIM2_VDD 210 PO U SIM2 card power supply Either 1 8V or 2 95V U SIM card is supported SC600Y SC600T support U SIM card hot plug via the USIM_DET pin which is disabled by default and can be enabled through software configuration A reference circuit for U SIM interface with an 8 pin U SIM card connector is shown as below USIM_VDD USIM_RST U...

Page 59: ...mum capacitance should not exceed 1uF The capacitor should be placed near to U SIM card To avoid cross talk between USIM_DATA and USIM_CLK keep them away from each other and shield them with ground USIM_RST also needs ground protection In order to offer good ESD protection it is recommended to add a TVS diode array with parasitic capacitance not exceeding 50pF The 22Ω resistors should be added in ...

Page 60: ...ion detection Active low A reference circuit for SD card interface is shown as below SD_CMD 120K NM_51K SD_DATA3 SD_DATA2 LDO5_1P8 SD_CLK SD_DATA0 SD_DET SD_DATA1 P1 DAT2 P2 CD DAT3 P3 CMD P4 VDD P5 CLK P8 DAT1 GND P6 VSS P7 DAT0 DETECTIVE GND GND GND 1 2 3 4 5 6 7 8 9 10 11 12 13 SD_LDO11 33R 33R 33R 33R 33R 33R 1K 33pF 4 7uF SD_LDO12 Module R1 R2 R3 R4 R5 R6 NM_51K NM_10K NM_51K NM_51K R7 R8 R9 ...

Page 61: ...ance as 50Ω 10 and ground shielding is required The total trace length difference between CLK and other signal line traces should not exceed 1mm Table 15 SD Card Signal Trace Length Inside the Module Pin No Signal Length mm Comment 70 SD_CLK 32 11 69 SD_CMD 32 11 68 SD_DATA0 32 11 67 SD_DATA1 32 11 66 SD_DATA2 32 11 65 SD_DATA3 32 11 3 13 GPIO Interfaces SC600Y SC600T have abundant GPIO interfaces...

Page 62: ... PD nppukp Wakeup SENSOR_I2C_SDA 132 GPIO_14 B PD nppukp SENSOR_I2C_SCL 131 GPIO_15 B PD nppukp UART5_TXD 199 GPIO_16 B PD nppukp UART5_RXD 198 GPIO_17 B PD nppukp Wakeup UART5_CTS 246 GPIO_18 B PD nppukp UART5_RTS 245 GPIO_19 B PD nppukp SPI_MOSI 60 GPIO_20 B PD nppukp SPI_MISO 61 GPIO_21 B PD nppukp Wakeup SPI_CS 58 GPIO_22 B PD nppukp SPI_CLK 59 GPIO_23 B PD nppukp LCD0_TE 126 GPIO_24 B PD nppu...

Page 63: ... PD nppukp Wakeup LCD0_RST 127 GPIO_61 B PD nppukp TP0_RST 138 GPIO_64 B PD nppukp TP0_INT 139 GPIO_65 B PD nppukp Wakeup GPIO_66 234 GPIO_66 B PD nppukp VOL_UP 146 GPIO_85 B PD nppukp Wakeup LCD1_RST 113 GPIO_87 B PD nppukp Wakeup GPIO_89 232 GPIO_89 B PD nppukp GPIO_90 231 GPIO_90 B PD nppukp Wakeup GPIO_96 230 GPIO_96 B PD nppukp GPIO_97 229 GPIO_97 B PD nppukp Wakeup GPIO_98 177 GPIO_98 B PD n...

Page 64: ...ystem 3 3 SCAM_PWDN and DCAM_PWDN cannot be pulled up when the module starts up 4 More details about GPIO configuration please refer to document 2 3 14 I2C Interfaces SC600Y SC600T provide five I2C interfaces As an open drain output each I2C interface should be pulled up to 1 8V voltage The SENSOR_I2C interface supports only sensors of the aDSP architecture CAM DCAM_I2C bus is controlled by Linux ...

Page 65: ...in Name Pin No I O Description Comment FP_SPI_CS 203 DO Chip selection signal of SPI interface SPI interface pin by default Can be multiplexed into I2S_WS FP_SPI_CLK 250 DO Clock signal of SPI interface SPI interface pin by default Can be multiplexed into I2S_SCK FP_SPI_MOSI 249 DO Master out slave in of SPI interface SPI interface pin by default Can be multiplexed into I2S_D0 FP_SPI_MISO 251 DI M...

Page 66: ...f SPI interface Used for fingerprint identification by default Can be multiplexed into I2S interface FP_SPI_CLK 250 DO Clock signal of SPI interface FP_SPI_MOSI 249 DO Master out slave in of SPI interface FP_SPI_MISO 251 DI Master in salve out of SPI interface 3 17 ADC Interfaces SC600Y SC600T provide two analog to digital converter ADC interfaces and the pin definition is shown below Table 20 Pin...

Page 67: ...reference circuit design is shown below 1uF Module VIB Motor VIB C2 33pF C1 VIB_DRV D1 VIB_GND Figure 19 Reference Circuit for Vibrator Connection 3 19 LCM Interfaces SC600Y SC600T modules provide two LCM interfaces and supports dual LCDs with WUXGA 1900 1200 display The interfaces support high speed differential data transmission with up to eight lanes Table 22 Pin Definition of LCM Interfaces Pi...

Page 68: ... signal DSI0_CLK_N 116 AO LCD0 MIPI clock signal negative DSI0_CLK_P 115 AO LCD0 MIPI clock signal positive DSI0_LN0_N 118 AO LCD0 MIPI lane 0 data signal negative DSI0_LN0_P 117 AO LCD0 MIPI lane 0 data signal positive DSI0_LN1_N 120 AO LCD0 MIPI lane 1 data signal negative DSI0_LN1_P 119 AO LCD0 MIPI lane 1 data signal positive DSI0_LN2_N 122 AO LCD0 MIPI lane 2 data signal negative DSI0_LN2_P 1...

Page 69: ...rence designs for LCM interfaces DSI0_CLK_P LEDA NC LEDK LPTE NC SDA TP VIO18 NC VTP TP DSI0_LN3_P LCD0_TE LCD0_RST DSI0_LN3_N DSI0_LN2_P DSI0_CLK_N DSI0_LN2_N RESET LCD_ID NC SCL TP NC RST TP NC EINT TP GND VCC28 GND MIPI_TDP3 MIPI_TDN3 GND MIPI_TDP2 MIPI_TDN2 GND MIPI_TDP1 MIPI_TDN1 GND LDO17_2P85 LDO6_1P8 LCD_BL_A LCD_BL_K1 1 2 3 4 5 6 7 8 9 10 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 MI...

Page 70: ...2 31 32 33 34 LCM1_LED Figure 21 Reference Circuit Design for LCM1 Interface MIPI are high speed signal lines It is recommended that common mode filters should be added in series near the LCM connector so as to improve protection against electromagnetic radiation interference When compatible design with other displays is required please connect the LCD_ID pin of LCM to the module s ADC pin and ple...

Page 71: ...t the backlight brightness 152 LCM1_LED PMU_MPP4 Module 2 2uF Backlight Driver LCM1_LED VBAT C1 Figure 22 Reference Design of LCM1 External Backlight Driving Circuit 3 20 Touch Panel Interfaces SC600Y SC600T provide two I2C interfaces for connection with Touch Panel TP and also provides the corresponding power supply and interrupt pins The pin definition of touch panel interfaces is illustrated be...

Page 72: ...F 100nF Module RESET 1 8V SCL 1 8V SDA 1 8V INT 1 8V GND VDD 2 8V TP R2 R1 C1 C2 D1 D2 D3 D4 D5 LDO10_2P8 Figure 23 Reference Circuit Design for Touch Panel Interfaces TP is powered by LDO10_2P8 by default and LDO10_2P8 can output 150mA current It is recommended to use an external LDO power supply if dual TP or other applications need to be supported 3 21 Camera Interfaces Based on standard MIPI C...

Page 73: ...V IOmax 600mA CSI0_CLK_N 89 AI MIPI clock signal of rear camera negative CSI0_CLK_P 88 AI MIPI clock signal of rear camera positive CSI0_LN0_N 91 AI MIPI lane 0 data signal of rear camera negative CSI0_LN0_P 90 AI MIPI lane 0 data signal of rear camera positive CSI0_LN1_N 93 AI MIPI lane 1 data signal of rear camera negative CSI0_LN1_P 92 AI MIPI lane 1 data signal of rear camera positive CSI0_LN2...

Page 74: ... negative CSI1_LN3_P 191 AI MIPI lane 3 data signal of depth camera positive Can be multiplexed into differential clock of the fourth camera positive CSI2_CLK_N 78 AI MIPI clock signal of front camera negative CSI2_CLK_P 77 AI MIPI clock signal of front camera positive CSI2_LN0_N 80 AI MIPI lane 0 data signal of front camera negative CSI2_LN0_P 79 AI MIPI lane 0 data signal of front camera positiv...

Page 75: ...a SCAM_PWDN 71 DO Power down signal of front camera CAM_I2C_SCL 75 OD I2C clock signal of camera CAM_I2C_SDA 76 OD I2C data signal of camera DCAM_MCLK 194 DO Clock signal of depth camera CAM4_MCLK 236 DO Master clock signal of fourth camera DCAM_RST 180 DO Reset signal of depth camera DCAM_PWDN 181 DO Power down signal of depth camera DCAM_I2C_SDA 197 OD I2C data of depth camera DCAM_I2C_SCL 196 O...

Page 76: ...LDO22_2P8 2 2K 2 2K Front camera connector 4 7uF 1uF 1uF MCAM_RST EMI EMI EMI EMI EMI EMI EMI EMI EMI EMI LDO17_2P85 AVDD AF_VDD DVDD DOVDD 1uF CSI0_LN0_P CSI0_LN0_N CSI0_LN1_P CSI0_LN1_N CSI0_LN2_P CSI0_LN2_N CSI0_LN3_P CSI0_LN3_N CSI2_LN0_P CSI2_LN0_N CSI2_LN1_P CSI2_LN1_N CSI2_LN2_P CSI2_LN2_N CSI2_LN3_P CSI2_LN3_N LDO23_1P2 DVDD 1uF 4 7uF 4 7uF AVDD DOVDD Figure 24 Reference Circuit Design for...

Page 77: ...1_P CSI2_LN1_N CSI2_LN0_P CSI2_LN0_N CSI0_CLK_P CSI0_CLK_N CSI2_CLK_P CSI2_CLK_N LDO6_1P8 LDO22_2P8 2 2K 2 2K Front camera connector 1uF 4 7 uF 4 7uF 1uF 1u F 4 7uF MCAM_RST DCAM_PWDN DCAM_MCLK DCAM_I2C_SDA _ DCAM_I2C_SCL DCAM_RST Depth camera connector LDO17_2P85 AVDD AF_VDD DVDD DOVDD EMI EMI EMI EMI EMI EMI EMI EMI LDO2_1P1 1uF LDO23_1P2 2 2K 2 2K DVDD EMI EMI 4 7 1uF uF AVDD DOVDD Figure 25 Re...

Page 78: ...ace width and the inter lane spacing as two times of the trace width Any cut or hole on GND reference plane under MIPI signals should be avoided It is recommended to select a low capacitance TVS for ESD protection and the recommended parasitic capacitance is below 1pF Route MIPI traces according to the following rules a The total trace length should not exceed 305mm b Control the differential impe...

Page 79: ...LN3_N 15 73 0 15 110 DSI1_LN3_P 15 88 89 CSI0_CLK_N 16 54 0 03 88 CSI0_CLK_P 16 57 91 CSI0_LN0_N 17 47 0 07 90 CSI0_LN0_P 17 4 93 CSI0_LN1_N 12 13 0 05 92 CSI0_LN1_P 12 08 95 CSI0_LN2_N 9 56 0 14 94 CSI0_LN2_P 9 7 97 CSI0_LN3_N 8 73 0 13 96 CSI0_LN3_P 8 86 184 CSI1_CLK_N 20 32 0 23 183 CSI1_CLK_P 20 09 186 CSI1_LN0_N 12 09 0 57 185 CSI1_LN0_P 12 66 188 CSI1_LN1_N 11 33 0 37 187 CSI1_LN1_P 11 70 19...

Page 80: ... 11 83 CSI2_LN2_P 21 92 86 CSI2_LN3_N 21 90 0 59 85 CSI2_LN3_P 22 49 3 21 2 Flashlight Interfaces SC600Y SC600T modules support 2 flash LED drivers with maximal output current up to 1 5A per channel in flash mode and 300mA in torch mode The default output current is 1A in flash mode and 300mA in torch mode Table 26 Pin Definition of Flashlight Interfaces Pin Name Pin No I O Description Comment FLA...

Page 81: ...ss optical sensor temperature sensor Table 27 Pin Definition of Sensor Interfaces Pin Name Pin No I O Description Comment SENSOR_I2C_SCL 131 OD I2C clock signal of external sensor SENSOR_I2C_SDA 132 OD I2C data signal of external sensor GPIO_43 253 DI Interrupt signal of optical sensor GPIO_44 254 DI Interrupt signal of direction sensor compass GPIO_42 252 DI Interrupt signal of acceleration senso...

Page 82: ... negative output HPH_R 51 AO Headphone right channel output HPH_REF 50 AI Headphone reference ground HPH_L 49 AO Headphone left channel output HS_DET 48 AI Headset insertion detection High level by default The module offers three audio input channels including one differential input pair and two single ended channels The three sets of MICs are integrated with internal bias voltage The output volta...

Page 83: ...ign for Microphone Interfaces MIC1_P ECM MIC R2 R1 Module D1 MIC1_N 33pF C1 0R 0R R3 0R Figure 27 Reference Circuit Design for Analog ECM type Microphone MIC3_P 33pF MEMS MIC R2 R1 C2 Module MIC_GND 0R C1 MIC_BIAS 1 2 3 4 F1 D1 OUT GND GND VDD 100nF C4 0R 33pF Figure 28 Reference Circuit Design for MEMS type Microphone ...

Page 84: ..._N R2 33pF 33pF 33pF C2 C3 C1 R1 Module D1 D2 0R 0R Figure 29 Reference Circuit Design for Earpiece Interface 3 23 3 Reference Circuit Design for Headphone Interface 20K ESD MIC_GND MIC2_P HPH_L HS_DET HPH_R HPH_REF 33pF Module R1 0R 3 6 4 5 2 1 33pF 33pF C3 C4 C5 F3 F2 F1 D1 D2 D3 D4 F4 R2 R3 0R Figure 30 Reference Circuit Design for Headphone Interface ...

Page 85: ...that the resonant frequency point of a capacitor largely depends on the material and production technique Therefore customers would have to discuss with their capacitor vendors to choose the most suitable capacitor for filtering out high frequency noises The severity degree of the RF interference in the voice channel during GSM transmitting largely depends on the application design In some cases E...

Page 86: ...P8 during power up will force the module enter into emergency download mode This is an emergency option when there are failures such as abnormal startup or operation For convenient firmware upgrade and debugging in the future please reverse the reference circuit design shown as below LDO5_1P8 S1 Module USB_BOOT R1 10K Figure 32 Reference Circuit Design for Emergency Download Interface ...

Page 87: ...Hz and 5GHz dual band WLAN wireless communication based on IEEE 802 11a b g n ac standard protocols The maximum data rate is up to 433Mbps The features are as below Support Wake on WLAN WoWLAN Support ad hoc mode Support WAPI SMS4 hardware encryption Support AP mode Support Wi Fi Direct Support MCS 0 7 for HT20 and HT40 Support MCS 0 8 for VHT20 Support MCS 0 9 for VHT40 and VHT80 4 1 1 Wi Fi Perf...

Page 88: ...a 6Mbps 14dBm 2 5dB 802 11a 54Mbps 13dBm 2 5dB 802 11n HT20 MCS0 15dBm 2 5dB 802 11n HT20 MCS7 13dBm 2 5dB 802 11n HT40 MCS0 15dBm 2 5dB 802 11n HT40 MCS7 13dBm 2 5dB 802 11ac VHT20 MCS0 15dBm 2 5dB 802 11ac VHT20 MCS8 13dBm 2 5dB 802 11ac VHT40 MCS0 14dBm 2 5dB 802 11ac VHT40 MCS9 13dBm 2 5dB 802 11ac VHT80 MCS0 13dBm 2 5dB 802 11ac VHT80 MCS9 12dBm 2 5dB Standard Rate Sensitivity 2 4GHz 802 11b ...

Page 89: ...l as GFSK 8 DPSK π 4 DQPSK modulation modes Maximally support up to 7 wireless connections Maximally support up to 3 5 piconets at the same time Support one SCO or eSCO Extended Synchronous Connection Oriented connection The BR EDR channel bandwidth is 1MHz and can accommodate 79 channels The BLE channel bandwidth is 2MHz and can accommodate 40 channels 802 11n HT20 MCS7 70 802 11n HT40 MCS0 85 80...

Page 90: ...etooth Radio Frequency TSS and TP Specification 1 2 2 0 2 0 EDR 2 1 2 1 EDR 3 0 3 0 HS August 6 2009 Bluetooth Low Energy RF PHY Test Specification RF PHY TS 4 0 0 December 15 2009 4 2 1 BT Performance The following table lists the BT transmitting and receiving performance of SC600Y SC600T modules Table 32 BT Transmitting and Receiving Performance Transmitter Performance Packet Types DH5 2 DH5 3 D...

Page 91: ...g GPS GLONASS and BeiDou With an embedded LNA the module provides greatly improved positioning accuracy 5 1 GNSS Performance The following table lists the GNSS performance of SC600Y SC600T modules in conduction mode Table 33 GNSS Performance Parameter Description Typ Unit Sensitivity GNSS Cold start 144 dBm Reacquisition 155 dBm Tracking 155 dBm TTFF GNSS Cold start 35 s Warm start 30 s Hot start ...

Page 92: ...RF components should be placed far away from high speed circuits switched mode power supplies power inductors the clock circuit of single chip microcomputers etc For applications with harsh electromagnetic environment or high ESD protection requirements it is recommended to add ESD protective diodes for the antenna interface Only diodes with ultra low junction capacitance such as 0 5pF can be sele...

Page 93: ... 34 Pin Definition of Main Rx diversity Antenna Interfaces Pin Name Pin No I O Description Comment ANT_MAIN 19 IO Main antenna interface 50Ω impedance ANT_DRX 149 AI Diversity and MIMO antenna interface 50Ω impedance The operating frequencies of SC600Y SC600T modules are listed in the following table Table 35 SC600Y JP SC600T JP Module Operating Frequencies 3GPP Band Receive Transmit Unit WCDMA B1...

Page 94: ...TE FDD B28B 773 803 718 748 MHz LTE TDD B41 1 2496 2690 2496 2690 MHz Table 36 SC600Y EM SC600T EM Module Operating Frequencies 3GPP Band Receive Transmit Unit GSM850 869 894 824 849 MHz EGSM900 925 960 880 915 MHz DCS1800 1805 1880 1710 1785 MHz PCS1900 1930 1990 1850 1910 MHz WCDMA B1 2110 2170 1920 1980 MHz WCDMA B2 1930 1990 1850 1910 MHz WCDMA B4 2110 2155 1710 1755 MHz WCDMA B5 871 892 826 8...

Page 95: ... LTE TDD B40 2300 2400 2300 2400 MHz LTE TDD B41 1 2496 2690 2496 2690 MHz Table 37 SC600Y NA SC600T NA Module Operating Frequencies 3GPP Band Receive Transmit Unit WCDMA B2 1930 1990 1850 1910 MHz WCDMA B4 2110 2155 1710 1755 MHz WCDMA B5 871 892 826 847 MHz LTE FDD B2 1930 1990 1850 1910 MHz LTE FDD B4 2110 2155 1710 1755 MHz LTE FDD B5 869 894 824 849 MHz LTE FDD B7 2620 2690 2500 2570 MHz LTE ...

Page 96: ...from 39650 to 41589 6 1 1 Main and Rx diversity Antenna Interfaces Reference Design A reference circuit design for main and Rx diversity antenna interfaces is shown as below A π type matching circuit should be reserved for better RF performance and the π type matching components R1 C1 C2 R2 C3 C4 should be placed as close to the antennas as possible The capacitors are not mounted by default and re...

Page 97: ...ned by the trace width W the materials dielectric constant the height from the reference ground to the signal layer H and the clearance between RF traces and grounds S Microstrip or coplanar waveguide is typically used in RF layout to control characteristic impedance The following are reference designs of microstrip or coplanar waveguide with different PCB structures Figure 34 Microstrip Design on...

Page 98: ...of RF traces to 50Ω The GND pins adjacent to RF pins should not be designed as thermal relief pads and should be fully connected to ground The distance between the RF pins and the RF connector should be as short as possible and all the right angle traces should be changed to curved ones There should be clearance under the signal pin of the antenna connector or solder joint The reference ground of ...

Page 99: ... Name Pin No I O Description Comment ANT_WIFI BT 129 IO Wi Fi BT antenna interface 50Ω impedance Table 39 Wi Fi BT Frequency Type Frequency Unit 802 11a b g n ac 2402 2482 5180 5825 MHz BT4 2 LE 2402 2480 MHz A reference circuit design for Wi Fi BT antenna interface is shown as below A π type matching circuit is recommended to be reserved for better RF performance The capacitors are not mounted by...

Page 100: ...S Frequency Type Frequency Unit GPS 1575 42 1 023 MHz GLONASS 1597 5 1605 8 MHz BeiDou 1561 098 2 046 MHz 6 3 1 Recommended Circuit for Passive Antenna GNSS antenna interface supports passive ceramic antennas and other types of passive antennas A reference circuit design is given below Passive Antenna Module ANT_GNSS NM C1 C2 R1 C4 NM 0R Figure 39 Reference Circuit Design for GNSS Passive Antenna ...

Page 101: ...is shown below Active Antenna 3V3 Module ANT_GNSS 56nH 10R 1uF 100pF NM NM C4 C1 R1 L1 R2 0R C5 C3 C2 100pF Figure 40 Reference Circuit Design for GNSS Active Antenna 6 4 Antenna Installation 6 4 1 Antenna Requirements The following table shows the requirements on main antenna Rx diversity Wi Fi BT antenna and GNSS antenna Table 42 Antenna Requirements Antenna Type Requirements GSM WCDMA LTE VSWR ...

Page 102: ...nnection it is recommended to use the U FL R SMT connector provided by HIROSE Figure 41 Dimensions of the U FL R SMT Connector Unit mm Cable Insertion Loss 2dB LTE FDD B7 LTE TDD B38 B40 B41 Wi Fi BT VSWR 2 Gain dBi 1 Max Input Power W 50 Input Impedance Ω 50 Polarization Type Vertical Cable Insertion Loss 1dB GNSS 1 Frequency range 1559MHz 1609MHz Polarization RHCP or linear VSWR 2 Typ Passive An...

Page 103: ...LP serial connectors listed in the following figure can be used to match the U FL R SMT Figure 42 Mechanicals of U FL LP Connectors The following figure describes the space factor of mated connector Figure 43 Space Factor of Mated Connector Unit mm For more details please visit http www hirose com ...

Page 104: ... in the following table Table 43 Absolute Maximum Ratings Parameter Min Max Unit VBAT 0 5 6 V USB_VBUS 0 5 16 V Current on VBAT 0 3 A Voltage on Digital Pins 0 3 2 3 V 7 2 Power Supply Ratings Table 44 SC600Y SC600T Modules Power Supply Ratings Parameter Description Conditions Min Typ Max Unit VBAT VBAT The actual input voltages must stay between the minimum and maximum values 3 55 3 8 4 4 V Volta...

Page 105: ...meter Min Typ Max Unit Operating temperature range 1 35 25 65 C Extended temperature range 2 40 75 C Storage temperature range 40 90 C 1 1 Within operation temperature range the module is 3GPP compliant 2 2 Within extended temperature range the module remains the ability to establish and maintain a voice SMS data transmission emergency call etc There is no unrecoverable malfunction There are also ...

Page 106: ...093 mA Sleep USB disconnected DRX 9 2 995 mA LTE FDD supply current Sleep USB disconnected DRX 6 4 128 mA Sleep USB disconnected DRX 8 3 148 mA LTE TDD supply current Sleep USB disconnected DRX 6 3 952 mA Sleep USB disconnected DRX 8 3 025 mA WCDMA voice call B1 max power 567 mA B6 max power 586 mA B8 max power 554 mA B19 max power 589 mA WCDMA data transfer B1 HSDPA max power 500 mA B6 HSDPA max ...

Page 107: ...power 530 mA LTE TDD B28A max power 640 mA LTE TDD B28B max power 585 mA LTE TDD B41 max power 490 mA Table 47 SC600Y EM SC600T EM Current Consumption IVBAT OFF state Power down 80 uA GSM supply current Sleep USB disconnected DRX 2 TBD mA Sleep USB disconnected DRX 5 TBD mA Sleep USB disconnected DRX 9 TBD mA WCDMA supply current Sleep USB disconnected DRX 6 3 471 mA Sleep USB disconnected DRX 8 3...

Page 108: ...SM850 PCL 19 80 mA EGSM900 PCL 5 240 mA EGSM900 PCL 12 100 mA EGSM900 PCL 19 80 mA DCS1800 PCL 0 175 mA DCS1800 PCL 7 108 mA DCS1800 PCL 15 103 mA PCS1900 PCL 0 170 mA PCS1900 PCL 7 107 mA PCS1900 PCL 15 103 mA WCDMA voice call B1 max power 550 mA B2 max power 520 mA B4 max power 480 mA B5 max power 550 mA B8 max power 500 mA GPRS data transfer GSM850 1UL 4DL PCL 5 TBD mA GSM850 2UL 3DL PCL 5 TBD ...

Page 109: ... 0 TBD mA PCS1900 2UL 3DL PCL 0 TBD mA PCS1900 3UL 2DL PCL 0 TBD mA PCS1900 4UL 1DL PCL 0 TBD mA EDGE data transfer GSM850 1UL 4DL PCL 8 TBD mA GSM850 2UL 3DL PCL 8 TBD mA GSM850 3UL 2DL PCL 8 TBD mA GSM850 4UL 1DL PCL 8 TBD mA EGSM900 1UL 4DL PCL 8 TBD mA EGSM900 2UL 3DL PCL 8 TBD mA EGSM900 3UL 2DL PCL8 TBD mA EGSM900 4UL 1DL PCL 8 TBD mA DCS1800 1UL 4DL PCL 2 TBD mA DCS1800 2UL 3DL PCL 2 TBD mA...

Page 110: ...max power 560 mA B2 HSUPA max power 490 mA B4 HSUPA max power 480 mA B5 HSUPA max power 505 mA B8 HSUPA max power 480 mA LTE data transfer LTE FDD B1 max power 670 mA LTE FDD B2 max power 600 mA LTE FDD B3 max power 730 mA LTE FDD B4 max power 570 mA LTE FDD B5 max power 560 mA LTE FDD B7 max power 780 mA LTE FDD B8 max power 570 mA LTE FDD B20 max power 510 mA LTE FDD B28A max power 640 mA LTE FD...

Page 111: ...rrent Sleep USB disconnected DRX 6 3 835 mA Sleep USB disconnected DRX 8 2 998 mA LTE TDD supply current Sleep USB disconnected DRX 6 4 192 mA Sleep USB disconnected DRX 8 2 987 mA WCDMA voice call B2 max power 600 mA B4 max power 600 mA B5 max power 540 mA WCDMA data transfer B2 HSDPA max power 530 mA B4 HSDPA max power 550 mA B5 HSDPA max power 490 mA B2 HSUPA max power 550 mA B4 HSUPA max power...

Page 112: ... mA LTE TDD B26 max power 560 mA LTE TDD B66 max power 650 mA LTE TDD B71 max power 580 mA LTE TDD B41 max power 370 mA 7 5 RF Output Power The following table shows the RF output power of SC600Y SC600T modules Table 49 SC600Y JP SC600T JP RF Output Power Frequency Max Min WCDMA B1 24dBm 1 3dB 49dBm WCDMA B6 24dBm 1 3dB 49dBm WCDMA B8 24dBm 1 3dB 49dBm WCDMA B19 24dBm 1 3dB 49dBm LTE FDD B1 23dBm ...

Page 113: ...DMA B1 24dBm 1 3dB 49dBm WCDMA B2 24dBm 1 3dB 49dBm WCDMA B4 24dBm 1 3dB 49dBm WCDMA B5 24dBm 1 3dB 49dBm WCDMA B8 24dBm 1 3dB 49dBm LTE FDD B1 23dBm 2dB 39dBm LTE FDD B2 23dBm 2dB 39dBm LTE FDD B3 23dBm 2dB 39dBm LTE FDD B4 23dBm 2dB 39dBm LTE FDD B11 23dBm 2dB 39dBm LTE FDD B18 23dBm 2dB 39dBm LTE FDD B19 23dBm 2dB 39dBm LTE FDD B21 23dBm 2dB 39dBm LTE FDD B26 23dBm 2dB 39dBm LTE FDD B28A 23dBm ...

Page 114: ...1 SC600Y NA SC600T NA RF Output Power Frequency Max Min WCDMA B2 24dBm 1 3dB 49dBm WCDMA B4 24dBm 1 3dB 49dBm WCDMA B5 24dBm 1 3dB 49dBm LTE FDD B2 23dBm 2dB 39dBm LTE FDD B4 23dBm 2dB 39dBm LTE FDD B5 23dBm 2dB 39dBm LTE FDD B7 23dBm 2dB 39dBm LTE FDD B12 23dBm 2dB 39dBm LTE FDD B13 23dBm 2dB 39dBm LTE FDD B14 23dBm 2dB 39dBm LTE FDD B17 23dBm 2dB 39dBm LTE FDD B25 23dBm 2dB 39dBm LTE FDD B26 23d...

Page 115: ...Sensitivity Typ 3GPP SIMO Primary Diversity SIMO WCDMA B1 109 5 111 5 TBD 106 7dBm WCDMA B6 112 109 5 TBD 106 7dBm WCDMA B8 111 5 111 5 TBD 104 7dBm WCDMA B19 111 5 109 5 TBD 106 7dBm LTE FDD B1 10M 99 TBD 101 2 96 3dBm LTE FDD B3 10M 98 4 TBD 101 2 93 3dBm LTE FDD B5 10M 99 TBD 101 7 94 3dBm LTE FDD B8 10M 98 7 TBD 101 2 93 3dBm LTE FDD B11 10M 98 2 TBD 100 5 96 3dBm LTE FDD B18 10M 99 2 TBD 102 ...

Page 116: ...A B4 112 111 TBD 10dBm WCDMA B5 113 111 TBD 104 7dBm WCDMA B8 111 111 TBD 104 7dBm LTE FDD B1 10M 97 4 98 1 TBD 96 3dBm LTE FDD B2 10M 97 9 97 9 TBD 94 3dBm LTE FDD B3 10M 96 8 98 TBD 93 3dBm LTE FDD B4 10M 97 7 97 8 TBD 96 3dBm LTE FDD B5 10M 98 2 98 7 TBD 94 3dBm LTE FDD B7 10M 96 5 97 3 TBD 94 3dBm LTE FDD B8 10M 98 7 98 5 TBD 93 3dBm LTE FDD B20 10M 97 9 98 9 TBD 93 3dBm LTE FDD B28A 10M 98 3 ...

Page 117: ...es the module LTE TDD B41 10M 97 7 96 7 TBD 94 3dBm Frequency Receive Sensitivity Typ 3GPP SIMO Primary Diversity SIMO WCDMA B2 110 110 5 TBD 106 7dBm WCDMA B4 110 5 110 5 TBD 104 7dBm WCDMA B5 111 111 TBD 104 7dBm LTE FDD B2 10M 98 9 TBD 101 2 94 3dBm LTE FDD B4 10M 99 TBD 100 96 3dBm LTE FDD B5 10M 100 2 TBD 101 7 94 3dBm LTE FDD B7 10M 97 8 TBD 99 7 94 3dBm LTE FDD B12 10M 97 8 TBD 100 93 3dBm ...

Page 118: ... 117 128 The following table shows the electrostatic discharge characteristics of SC600Y SC600T modules Table 55 ESD Characteristics Temperature 25 C Humidity 45 Test Points Contact Discharge Air Discharge Unit VBAT GND 5 10 KV All Antenna Interfaces 5 10 KV Other Interfaces 0 5 1 KV ...

Page 119: ...ical Dimensions This chapter describes the mechanical dimensions of the module All dimensions are measured in millimeter mm and the tolerances for dimensions without tolerance values are 0 05mm 8 1 Mechanical Dimensions of the Module Si de vi ew Top vi ew Pi n1 Figure 44 Module Top and Side Dimensions ...

Page 120: ...Smart LTE Module Series SC600Y SC600T Hardware Design SC600Y SC600T_Hardware_Design 119 128 Figure 45 Module Bottom Dimensions Top View ...

Page 121: ...dware_Design 120 128 8 2 Recommended Footprint Figure 46 Recommended Footprint Top View 1 For easy maintenance of the module keep about 3mm between the module and other components on host PCB 2 All RESERVED pins should be kept open and MUST NOT be connected to ground NOTES ...

Page 122: ... 121 128 8 3 Top and Bottom View of the Module Figure 47 Top View of SC600Y SC600T Modules Figure 48 Bottom View of SC600Y SC600T Modules These are renderings of SC600Y SC600T modules For authentic dimension and appearance please refer to the module that you receive from Quectel NOTE ...

Page 123: ...ithin 168 hours at the factory environment of 30ºC 60 RH Stored at 10 RH 3 Devices require baking before mounting if any circumstance below occurs When the ambient temperature is 23º C 5º C and the humidity indication card shows the humidity is 10 before opening the vacuum sealed bag Device mounting cannot be finished within 168 hours at factory conditions of 30ºC 60 4 If baking is required device...

Page 124: ...For more details please refer to document 4 It is suggested that the peak reflow temperature is 238 245º C and the absolute maximum reflow temperature is 245º C To avoid damage to the module caused by repeated heating it is strongly recommended that the module should be mounted after reflow soldering for the other side of PCB has been completed The recommended reflow soldering thermal profile lead...

Page 125: ...in tape and reel carriers Each reel is 330mm in diameter and contains 200 modules The following figures show the package details measured in mm Figure 50 Tape Dimensions Reflow Zone Max slope 2 to 3 C sec Reflow time D over 220 C 40 to 60 sec Max temperature 238 C 245 C Cooling down slope 1 to 4 C sec Reflow Cycle Max reflow cycle 1 ...

Page 126: ...Y SC600T_Hardware_Design 125 128 Figure 51 Reel Dimensions Table 57 Reel Packaging Model Name MOQ for MP Minimum Package 200pcs Minimum Package 4 800pcs SC600Y SC600T 200 Size 398mm 383mm 83mm N W 1 92kg G W 3 67kg Size 420mm 350mm 405mm N W 8 18kg G W 15 18kg ...

Page 127: ...ayout_Application_Note RF Layout Application Note 4 Quectel_Module_Secondary_SMT_User_Guide Module Secondary SMT User Guide 5 Quectel_ SC600Y SC600T_Reference_Design Reference Design for SC600Y SC600T Table 59 Terms and Abbreviations Abbreviation Description ADC Analog to Digital Converter AMR Adaptive Multi rate bps Bits per Second CS Coding Scheme CSD Circuit Switched Data CTS Clear to Send DRX ...

Page 128: ...acket Access HSPA High Speed Packet Access I O Input Output IQ Inphase and Quadrature LCD Liquid Crystal Display LCM LCD Module LED Light Emitting Diode LNA Low Noise Amplifier LRA Linear Resonant Actuator MIPI Mobile Industry Processor Interface PCB Printed Circuit Board PDU Protocol Data Unit PMI Power Management Interface PMU Power Management Unit PSK Phase Shift Keying QAM Quadrature Amplitude...

Page 129: ...smitter UMTS Universal Mobile Telecommunications System U SIM Universal Subscriber Identity Module Vmax Maximum Voltage Value Vnorm Normal Voltage Value Vmin Minimum Voltage Value VI Voltage Input VIHmin Minimum Input High Level Voltage Value VILmax Maximum Input Low Level Voltage Value VO Voltage Output VOHmin Minimum Output High Level Voltage Value VOLmax Maximum Output Low Level Voltage Value V...

Page 130: ...S Coding Schemes Table 60 Description of Different Coding Schemes Scheme CS 1 CS 2 CS 3 CS 4 Code Rate 1 2 2 3 3 4 1 USF 3 3 3 3 Pre coded USF 3 6 6 12 Radio Block excl USF and BCS 181 268 312 428 BCS 40 16 16 16 Tail 4 4 4 Coded Bits 456 588 676 456 Punctured Bits 0 132 220 Data Rate Kb s 9 05 13 4 15 6 21 4 ...

Page 131: ...3 1 or 2 2 the first number indicates the amount of downlink timeslots while the second number indicates the amount of uplink timeslots The active slots determine the total number of slots the GPRS device can use simultaneously for both uplink and downlink communications The description of different multi slot classes is shown in the following table Table 61 GPRS Multi slot Classes Multislot Class...

Page 132: ...Hardware Design SC600Y SC600T_Hardware_Design 131 128 15 5 5 NA 16 6 6 NA 17 7 7 NA 18 8 8 NA 19 6 2 NA 20 6 3 NA 21 6 4 NA 22 6 4 NA 23 6 6 NA 24 8 2 NA 25 8 3 NA 26 8 4 NA 27 8 4 NA 28 8 6 NA 29 8 8 NA 30 5 1 6 31 5 2 6 32 5 3 6 33 5 4 6 ...

Page 133: ... 2kbps CS 2 GMSK 13 4kbps 26 8kbps 53 6kbps CS 3 GMSK 15 6kbps 31 2kbps 62 4kbps CS 4 GMSK 21 4kbps 42 8kbps 85 6kbps MCS 1 GMSK C 8 80kbps 17 60kbps 35 20kbps MCS 2 GMSK B 11 2kbps 22 4kbps 44 8kbps MCS 3 GMSK A 14 8kbps 29 6kbps 59 2kbps MCS 4 GMSK C 17 6kbps 35 2kbps 70 4kbps MCS 5 8 PSK B 22 4kbps 44 8kbps 89 6kbps MCS 6 8 PSK A 29 6kbps 59 2kbps 118 4kbps MCS 7 8 PSK B 44 8kbps 89 6kbps 179 2...

Page 134: ...east a 20 cm separation between the EUT and the user s body and must not transmit simultaneously with any other antenna or transmitter 3 A label with the following statements must be attached to the host end product This device contains FCC ID XMR2019SC600NA 4 To comply with FCC regulations limiting both maximum RF output power and human exposure to RF radiation maximum antenna gain including cabl...

Page 135: ...19SC600NA or Contains FCC ID XMR2019SC600NA must be used The host OEM user manual must also contain clear instructions on how end users can find and or access the module and the FCC ID The final host module combination may also need to be evaluated against the FCC Part 15B criteria for unintentional radiators in order to be properly authorized for operation as a Part 15 digital device The user s m...

Page 136: ...ne distance de séparation d au moins 20 cm de toutes les personnes et ne doit pas être colocalisé ou fonctionner conjointement avec une autre antenne ou un autre émetteur The host product shall be properly labeled to identify the modules within the host product The Innovation Science and Economic Development Canada certification label of a module shall be clearly visible at all times when installe...

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