MC60

Reference Design

GSM/GPRS/GNSS Module Series

Rev. B

Date: 2016-08-01

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GSM/GPRS/GNSS Module Series MC60 Reference Design

MC60_Reference_Design Confidential / Released 1 / 4

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GSM/GPRS/GNSS Module Series MC60 Reference Design

MC60_Reference_Design Confidential / Released 2 / 4

About the Document

History

Revision Date Author Description

B 2016-08-01 Tiger CHENG Initial

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GSM/GPRS/GNSS Module Series MC60 Reference Design

MC60_Reference_Design Confidential / Released 3 / 4

Contents

About the Document ................................................................................................................................ 2

Contents .................................................................................................................................................... 3

1 Introduction ....................................................................................................................................... 4

1.1. Introduction ............................................................................................................................. 4

1.2. Schematics ............................................................................................................................. 4

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GSM/GPRS/GNSS Module Series MC60 Reference Design

MC60_Reference_Design Confidential / Released 4 / 4

1 Introduction

1.1. Introduction

This document is a reference design for MC60 module.

1.2. Schematics

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Reference Design

A2

3. The width of VBAT trace is recommeded to be more than 2mm.

2. Module drains the maximum current around 1.6A in burst time (577us).

1. VBAT ranges from 3.3V to 4.6V.

Reference Circuit of ADC

Close to the VBAT pin

Capacitance of C101 should

is recommended here.

be chosen by debugging to ensure

A 5.1V/1W zener diode

Module Design

2. It is recommended to keep SYSTEM_3.3V powered for the longest time in all system power supply.

the max voltage drop during the burst transmissiondoes not exceed 400mV.

The voltage range of ADC input channel is from 0 to 2.8V.Please select a high-precision divider resistance.

4. These capacitances are arranged in ascending order, with the smallest one closing to the VBAT pins and all capacitances as close to the VBAT pins as possible.

A Pi match circuit is recommended to be added. For RF layout, please refer to "Quectel_RF_Layout_Application_Note".

Active Antenna Power Supply Circuit

Active Antenna Power Supply CircuitAntenna Type

Active

Passive

Need

No need

1. VRTC is designed to supply power for GNSS part of MC60 when VBAT is powered off.

Keep this pin open in Stand-alone Solution.Design in All-in-one Solution.

2. For more details, please refer to the "Quectel_MC60_Hardware_Design".

Design in All-in-one Solution.

Charge golden capacitor or battery when VBAT is applied.

Close to the GNSS_VCC pin.

1. In Stand-alone Solution, keep the switch S101 closed during firmware upgrade,

otherwise keep it disconnected.

S101

Design in Stand-alone Solution.

R106

R109

C102

1uF

C104

33pF

+C101

470uF

C105

10pF

D102

1 MICP2 MICN3 SPKP4 SPKN5 PWRKEY6 ADC7 SD_CMD8 SD_CLK9 SD_DATA10 SIM2_CLK11 SIM2_DATA12 SIM2_RST13 SIM2_VDD14 GND15 GNSS_ANT16

SIM

_GN

D17

1PP

S18

SIM

1_V

DD

19S

IM1_

CLK

20S

IM1_

RS

T21

SIM

1_D

AT

A22

GN

SS

_TX

D23

GN

SS

_RX

D24

RX

D_A

UX

25T

XD

_AU

X26

GN

SS

_VC

C27

GN

D

28GNSS_VCC_EN

29DBG_TXD

30DBG_RXD

31GND

32BT_ANT

33TXD

34RXD

35RI

36DCD

37DTR

38CTS

39RTS

40GND

41RF_ANT

42GND

43V

DD

_EX

T

44G

ND

45G

ND

46R

ES

ER

VE

D

47N

ET

LIG

HT

48G

ND

49G

ND

50V

BA

T

51V

BA

T

52V

RT

C

53LO

UD

SP

KN

54LO

UD

SP

KP U101-A

MC60

55 RESERVED56 RESERVED57 RESERVED58 RESERVED59 PCM_CLK60 PCM_OUT61 PCM_SYNC 62PCM_IN

63RESERVED

64RESERVED

65RESERVED

66RESERVED

67RESERVED

68RESERVED

U101-B

MC60

C108NM

C109NM

R102

0R

J101RF_ANT

C112

NM

C113

NM

R105

0R

J103GNSS_ANT

C114

100nF

C103

100nF

R107 NM_0R

R108 NM_0R

R104

10R

L101

47nH

D101

B101

C106 4.7uF

C107 100nF

R101

1K

C110

NM

R103

0R

C111NM

J102RF_ANT

C11510uF

C116

100nF

[1]ADC

VBAT

VOLTAGE_INPUT

[6]DBG_RXD[6]DBG_TXD

[4] MICP[4] MICN[4] SPKP[4] SPKN

[6,7] PWRKEY[1] ADC

[5] SIM2_CLK[5] SIM2_DATA[5] SIM2_RST[5] SIM2_VDD

[5]

SIM

1_V

DD

[5]

SIM

1_C

LK[5

]S

IM1_

RS

T[5

]S

IM1_

DA

TA

GNSS_VCC

[4]

LOU

DS

PK

P[4

]LO

UD

SP

KN

[1]

VR

TC

VB

AT

VD

D_E

XT

[1,6

]G

NS

S_T

XD

[1,6

]G

NS

S_R

XD

[7]

NE

TLI

GH

T

[6]CTS[6]RTS

[1]

RX

D_A

UX

[1]

TX

D_A

UX

[6]DTR

[6]TXD[6]RXD[6]RI[6]DCD

[5]

SIM

_GN

D

[1,6] GNSS_TXD [1]RXD_AUX

[1]TXD_AUX[1,6] GNSS_RXD

[1,2,3,6,7] GNSS_VCC

SYSTEM_3.3V

[1] VRTC

[2]GNSS_VCC_EN

GNSS_VCC

[7]1

PP

S

[1,6] GNSS_TXD [1]RXD_AUX

[1]TXD_AUX[1,6] GNSS_RXD

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Reference DesignMC60

A2

LDO Application

DC-DC Application

1. All reference circuits in this sheet apply only to All-in-one Solution.

It is used when the DC input voltage is below 7V.

1. It can be used when the input voltage is above 7V in vehicle application.

eg. DC12V INDCDC

DC 5V OUTLDO

DC 4V OUT FOR

2. Use DCDC to convert high input voltage to 5V and LDO will generate 4V/3.3V typical voltage for the module.

DC input

Power Supply in All-in-one Solution

NOTES

LDODC 3.3V OUT FOR

GSM PART GNSS PART

2. The voltage converter should provide a minimum current of 2.0A.

+

C201

470uF

+

C203

470uF

R202

124K

R206

56K

C202

100nF

C204

100nF

R201

51K

Q201

DTC143ZETL

R204

470R

1

EN

2 IN

3

GN

D

4OUT

5

AD

J

U201 MIC29302/SPX29302

1 VIN

2 GND

3 EN

5VOUT

4FB

U202

SGM2019-ADJYN5G/TR+C205100uF

C208

100nF

C206100nF

C207

4.7uF

R203

75K

R205

43KR207

47K

VBAT

[3] +5V

[3,7] GSM_POWER_ON/OFF

GNSS_VCC

[1]G

NS

S_V

CC

_EN

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Reference DesignMC60

A2

LDO Application

DC-DC Application

It is used when the DC input voltage is below 7V.

1. It can be used when the input voltage is above 7V in vehicle application.

eg. DC12V INDCDC

DC 5V OUTLDO

DC 4V OUT FOR

2. Use DCDC to convert high input voltage to 5V and LDO will generate 4V/3.3V typical voltage for the module.

DC input

LDODC 3.3V OUT FOR

GSM PART

GNSS PART

Power Supply in Stand-alone Solution

1. All reference circuits in this sheet apply only to Stand-alone Solution.

NOTES

2. The voltage converter should provide a minimum current of 2.0A.

DC input

+C301470uF

+

C305

470uF

R302

124K

R305

56K

C302

100nF

C306

100nF

R301

51K

Q301

DTC143ZETL

R304

470R

1

EN

2 IN

3

GN

D

4OUT

5

AD

J

U301 MIC29302/SPX29302

1 VIN

2 GND

3 EN

5VOUT

4FB

U302

XC6209F332MR+C303100uF

C308

100nF

C304100nF

C307

4.7uF

Q302

DTC143ZETL

R303

10K

[2,3] +5V

[2,7] GSM_POWER_ON/OFF

VBAT

GNSS_VCC

[2,3] +5V

[7] GNSS_POWER_ON/OFF

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Reference Design

A2

Close to handset connector.

Handsfree Application of AIN/AOUT2

NOTES

1.10p & 33p capacitors are used for filtering TDD noise.

Note 1

Close to MIC.

Handsets Application of AIN/AOUT1

3. AIN has bias voltage of microphone.

Close to Socket.

Close to Socket.Close to Socket.

+

Earphone Application of AIN/AOUT2

Note 2

Note 22. These components are used to enhance the ESD protection performance of MIC lines,

and thus it is strongly recommended to reserve them.

Audio Design

Close to Speaker.

4. AOUT1 is capable of driving 32ohm load.

5. AOUT2 is capable of driving 8ohm load and Earphone.

6. It is recommended that customer connect AGND and MAIN GROUND together

if a single-ended earphone is used.

Note 6

4

1

3

2

J404

HANDSETCONC426

33pFC427

10pF

C428

33pF

C429

10pF

C430

33pF

C415

33pF

C417

33pF

C418

10pF

C416

10pF

C419

33pF

C414

10pF

C425

10pF

J401

MIC

C401

10pF

C402

33pF

C403

10pF

C405

10pF

C404

33pF

C406

33pF

1

2

3

4

J403

Earphone

C421

10pF

C422

33pF

C413

4.7uF

C423

10pF

C424

33pF

R403

0R

D40

7

ES

D9B

5.0S

T5G

D40

9

ES

D9B

5.0S

T5G

D41

0

ES

D9B

5.0S

T5G

C420

22uF

D40

5

ES

D9B

5.0S

T5G

D40

6

ES

D9B

5.0S

T5G

D40

8

ES

D9B

5.0S

T5G

D40

1

ES

D9B

5.0S

T5G

D40

2

ES

D9B

5.0S

T5G

1

2

J402

FB401

FBMH1608HM601-T

FB402

FBMH1608HM601-T

C409

10pF

C411

10pF

C407

10pF

C410

33pF

C408

33pF

C41233pF

R401

0R

R402

0R

D40

3E

SD

9B5.

0ST

5GD

404

ES

D9B

5.0S

T5G

R404

0R[1] SPKN

[1,4] MICP

AGND

AGND

[1] SPKP

[1,4] MICP

[1,4] MICN

[1,4] MICP

[1,4] MICN

[1,4] LOUDSPKP

[1,4] MICN

[1] LOUDSPKN

[1,4] LOUDSPKP

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Reference DesignMC60

A2

SIM Card Interface

NOTES1. The value of C501/C502 should be less than 1uF.

2. U501/U502 is used for protecting SIM card against ESD, and the junction capacitance should be less than 50pF.

3. For MC60 module, ground of SIM card is recommended to be routed to the Pin 16 ("SIM_GND") of the module separately.

It should be placed nearby SIM card holder.

Note 1

Note 2

Note 3

SIM Card

Note 1

Note 2

Note 3

R503 22R

R505 22R

R507 22R

C501100nF

1

2

3 4 5 6

U501

NUP5150MUTBG

1GND

2VPP

3I/O4 CLK

5 RST

6 VCC

J501

C503

33pF

C505

33pF

C506

33pF

C504

33pF

R501

NM

R504 22R

R506 22R

R508 22R

C502100nF

1

2

3 4 5 6

U502

NUP5150MUTBG

1GND

2VPP

3I/O4 CLK

5 RST

6 VCC

J502

C507

33pF

C509

33pF

C510

33pF

C508

33pF

R502

NM

[1,5] SIM1_VDD

[1,5]SIM_GND

[1] SIM1_RST

[1] SIM1_CLK

[1] SIM1_DATA

SIM1_VDD

[1,5]SIM_GND

[1] SIM2_RST

[1] SIM2_CLK

[1] SIM2_DATA

SIM2_VDD

[1,5] SIM2_VDD

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A2

VOHmin=0.85*VDD_EXTVOLmax=0.15*VDD_EXTVILmax=0.25*VDD_EXTVIHmin=0.75*VDD_EXT

Connection of Full-function UART Port for 3.3V System

1. CTS/RTS will be used for HW flow control when mass data has been sent.

2. When AT+QSCLK=1 is set on the module, customer's application can control the module to enter into or exit from the sleep mode through the pin DTR.When DTR is set to high level, and there is no on-air or hardware interrupt,such as GPIO interrupt or data on serial port, the module will enter into sleep

3. RI will output an indication signal when activity such as voice call or SMS

NOTES

VDD_EXT=2.8V (typical value)

Electrical characteristics of the module's input and output port:

MC60

4. DCD is mainly applied in modem communication (PPP). The active status

represents that the communication link has been set up.

5. Please pay attention to the level match of UART in product application.

Connection of Three-line UART Port for 3.3V SystemMC60

Please pay attention to the level match of UART in product application.

MCU

mode automatically.

is coming.

VIHmax=VDD_EXT+0.2V

It is recommended to reserve the points for upgrading the firmware.

Serial Interface

MC60

MC60

It is recommended to reserve the points for debug port.

Please pay attention to the level match of UART in product application.

Connection of GNSS UART Port for 3.3V System in Stand-alone Solution.

MC60

Please pay attention to the level match of UART in product application.

MCU

TXD1

RXD1

In All-in-one Solution, the circuit design is not needed and thus can be ignored.

Design in Stand-alone Solution.

1TXD

2RXD

3RTS

4CTS

5GPIO

6EINT

7GPIO8

GND

MCU

R608 1K

R604 1K

R605 1K

R606 1K

R607 1K

R609 1K

R610 1K

R601 1K

R602 1K

1TXD

2RXD

3GND

R612

5K6

R611

5K6

R613

5K6

R6035K6

1 T609

1 T610

1T601

1T603

1T605

1T607

1T608

1T606

R614 1K

R615 1K

R6165K6

1 T602

1 T604

[1,6]RXD

[1,6]TXD

[1]RTS

[1]CTS

[1]DTR

[1]RI

[1]DCD

[1,6]RXD

[1,6]TXD

[1] DBG_RXD

[1] DBG_TXD

[1,7]PWRKEY

VBAT

[1,6]RXD

[1,6]TXD

GNSS_VCC

[1,6]GNSS_RXD

[1,6]GNSS_TXD

[1,6] GNSS_TXD

[1,6] GNSS_RXD

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Reference DesignMC60

A2

NETWORK STATUS Indication

Pin "NETLIGHT" indicates the network status.

MCU Control and Driver

Recommended circuit for turning on/off the module.

GSM Turn on/off

MCU

MCU GPIO

Design in Stand-alone Solution. Keep this pin open in All-in-one Solution.

The 1PPS indicator will blink at 1Hz frequency

after fixing the position.

1PPS Indication

R7021K

D702

1GPIO

2GPIO

3GPIO

Q703

DTC143ZETL

Q701

DTC143ZETL

Q702

DTC143ZETL

R7011K

D701

[1] NETLIGHT

VBAT

[1,6]PWRKEY

[7]PWRKEY_CONTROL

[2,3]GSM_POWER_ON/OFF

[7] PWRKEY_CONTROL

[3]GNSS_POWER_ON/OFF

GNSS_VCC

[1]1PPS

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About the DocumentContents1 Introduction1.1. Introduction1.2. Schematics