1. Introduction

Once you have soldered the headers your

board is ready to be placed into desired

mikroBUS™ socket. Make sure to align the

cut in the lower-right part of the board

with the markings on the silkscreen at the

mikroBUS™ socket. If all of the pins are

aligned correctly, push the board all

the way into the socket.

3. Plugging the board in

2 3

2. Soldering the headers

1

4. Essential features

Turn the board upward again. Make sure

to align the headers so that they are

perpendicular to the board, then solder the

pins carefully.

Turn the board upside down so that

bottom side is facing you upwards. Place

shorter parts of the header pins in both

soldering pad locations.

Before using your click board™, make sure

to solder 1x8 male headers to both left

and right side of the board. Two 1x8 male

headers are included with the board in

the package.

clickBOARDwww.mikroe.com

GPS2 click Manualver. 1.01

0 100000 023136

GPS2 Click™ is an accessory board in

mikroBUS™ form factor. It’s a compact and

easy solution for adding GPS module to

your design. It features Quectel L30 GPS

module as well as SMA antenna connector.

GPS2 Click™ communicates with target

board microcontroller via mikroBUS™

UART (Tx, Rx), I2C (SCL, SDA), SPI (MISO,

MOSI, SCK, CS), PWM, INT, AN and RST

lines. The board is designed to use 3.3V

and 5V power supply. LED diode (GREEN)

indicates the presence of power supply.

GPS2 click

GPS2 Click™ with it’s Quectel L30 IC is a

compact solution for adding Global Positioning

Systems (GPS) to your design. The Quectel L30 has advanced jamming suppression

mechanism and innovative RF architecture

ensuring maximum GPS performance. The

module supports location, navigation and

industrial applications including autonomous

GPS C/A, SBAS (WAAS or EGNOS) and A-GPS.

The board is designed for use with active

antennas.

8. Support

MikroElektronika off ers Free Tech Support (www.mikroe.com/esupport) until the

end of product lifetime, so if something goes

wrong, we are ready and willing to help!

7. Code Examples

.com

Once you have done all the necessary

preparations, it’s time to get your click

board up and running. We have provided

the examples for mikroC, mikroBasic and

mikroPascal compilers on our Libstock

website. Just download them and you are

ready to start.

.com

5. GPS2 Click™ Board Schematic

+3V3

E210

uF

CS

C4

100n

F

RST#

CN1ANTENNA

RXTX

ON/OFF

R8

1K

Q2BC846

WUPINT

12345678 9

10111213141516A1

VCCAA2A3A4A5A6OE

B5B6

B1VCCB

B2B3B4

GND

TXB0

106

U2

TXB0106

Vgps

+5V

R142K2

LD1PWR

J1

+5V

+3V3VCC

R12100K

Vgps

VCC

R15

1K

Q3BC846

R17100K

R1010K

Vgps

R2

1K

Q1BC846

R3100K

LD2

VCC

R13K3

SCKCS

RST#

PIN5

C1100nF

ANRSTCSSCK

MOSIMISO

+3.3VGND

PWMINT

RXTX

SCLSDA+5VGND

123456

7 8 9 10

111213141516

1718192021

GND EINT0

GND

RSTCFG0/SCKCFG1/SCSSCLSDA

1PPS

VIO

VCC

GN

D

CLKDIO

ON/OFFWAKEUP

RFI

N

GN

DG

ND

GN

DG

ND

U1QUECTEL L30

T_WUPT_RST#T_INT

T_ON/OFF

1PPS

1PPS

Vgps

VIO

R2010K

INT

WUP

R510K

Vgps

T_PIN3T_PIN4T_PIN5T_PIN6

SCK

R910K

R710K

VCC

PIN5

PIN6

PIN6

R112K2

R62K2

TX

RX

SCLSDA

MISOMOSI

C3100nF

Vgps

ON/OFF

SCL

SDA

MISO

MOSI

VCC

C22.2uF

R1622K

R13120K

R1812K1

Vgps

1

2

3

IN

GND

OUT 5

4EN ADJ

U3

AP7331-ADJ

J6

J3J2 J4

J5 J7

J8 J9

T_PIN3PIN5

PIN6

PIN6

PIN5

T_PIN4

J10 J11

T_PIN4

T_PIN3

R410K

T_CS

T_SCK

T_WUP

T_INT

T_ON/OFF

T_RST#T_SCKT_CST_PIN5T_PIN6

C522nF

R19

10

L1

47nH

+3V3

C64.7uF

C74.7uF

Vgps

C81uF

Vgps

C9

4.7uF

MIKROBUS DEVICE CONN.

MikroElektronika assumes no responsibility or liability for any errors or inaccuracies that may appear in the present document. Specifi cation and information contained in the present schematic are subject to change at any time without notice. Copyright © 2012 MikroElektronika. All rights reserved.

6. SMD Jumpers

There are three groups of jumpers: UART

(J2,J3,J4), I2C (J5,J6,J7) and SPI (J8,J9,J10,J11)

By soldering zero-ohm SMD jumpers in

appropriate group, you will be able to change

communication between target board

microcontroller and Quectel L30 module.

There is one SMD jumper J1 used to select

between 3.3V or 5V power supply. J1 jumper

is soldered in 3.3V position by default.