Page 2
I want to express my thanks to you for being interested in our products and for having
confidence in MikroElektronika.
The primary aim of our company is to design and produce high quality electronic products
and to constantly improve the performance thereof in order to better suit your needs.
The dsPIC® and Windows® logos and product names are trademarks of Microchip Technology® and Microsoft® in the U.S.A. and other countries.
TO OUR VALUED CUSTOMERS
Nebojsa Matic
General Manager
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Introduction to clicker 2 for dsPIC33 4
Key features 5
Schematic 6
1. Power supply 7
2. dsPIC33EP512MU810 microcontroller 8
3. Programming the microcontroller 9
3.1 Programming with mikroBootloader 10
step 1 – Connecting clicker 2 for dsPIC 10
step 2 – Browsing for .HEX file 11
step 3 – Selecting .HEX file 11
step 4 – Uploading .HEX file 12
step 5 – Finish upload 13
3.2 Programming with mikroProg programmer 14
mikroProg Suite for PIC® software 15
4. Buttons and LEDs 16
5. Power management and battery charger 17
6. Oscillators 18
7. USB connection 19
8. Pinout 20
8.1 mikroBUS™ pinout 21
9. click boards™ are plug and play! 22
10. Dimensions 23
Table of contents
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Page 4
clicker 2 for dsPIC33 is a compact development
kit with two mikroBUS™ sockets for click board™
connectivity. You can use it to quickly build your
own gadgets with unique functionalities and
features. It carries the dsPIC33EP512MU810,
a 16-bit microcontroller, two indication LEDs,
two general purpose buttons, a reset button, an
ON/OFF switch, a li-polymer battery connector,
a micro USB connector and two mikroBUS™
sockets. A mikroProg connector and a 2x26
pinout for interfacing with external electronics
are also provided. The mikroBUS™ connector
consists of two 1x8 female headers with SPI, I
2C, UART, RST, PWM, Analog and Interrupt lines as
well as 3.3V, 5V and GND power lines. clicker 2 for
dsPIC33 board can be powered over a USB cable.
Introduction to clicker 2 for dsPIC33
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1 ON/OFF switch
2 8 MHz crystal oscillator
3 two 1x26 connection pads
4 mikroBUS™ sockets 1 and 2
5 Pushbuttons
6 Additional LEDs
7 LTC3586 USB power manager IC
8 Power and Charge indication LEDs
9 RESET button
10 Micro USB connector
11 dsPIC33EP512MU810 MCU
12 Li-Polymer battery connector
13 mikroProg programmer connector
14 32.768 KHz crystal oscillator
9
10
11
3
4
5
6
12
13
1
2
3
14
4
5
6
8
7
Key features
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clicker 2 for dsPIC33 schematic
AN
RST
CS
SCK
MISO
MOSI
3.3V
GND
PWM
INT
RX
TX
SCL
SDA
5V
GND
AN
RST
CS
SCK
MISO
MOSI
3.3V
GND
PWM
INT
RX
TX
SCL
SDA
5V
GND
ILIM0
1
ILIM1
2
LDO3V3
3
CLPROG
4
NTC
5
VOUT4
6
VOUT4
7
SW4
8
MODE
9
FB4
10
FB3
11
VC3
12
SWAB3 13
VIN3 14
VIN3 15
VOUT3 16
VOUT3 17
EN3 18
SWCD3 19
EN2 20
EN1 21
VIN422
FB2 23
VIN224
SW225
SW126
VIN127
FB1 28
PROG29
CHRG# 30
GATE 31
BAT
32
EN4
33
VOUT
34
VBUS
35
VBUS
36
SW
37
FAULT#
38
LTC3586
U2
LTC3586EUFE
VCC-3.3VVCC-3.3V VCC-3.3V VCC-3.3V VCC-3.3V VCC-3.3VVCC-BAT
VCC-3.3VVCC-3.3V VCC-3.3V
VSYS VSYS
LDO3V3
VCC-USB
VCC-5VVCC-5V
VCC-BAT
LD4B
RED
R15
2.2k
R18
3.3k
R16
10k
R20
10k
R23
1.69k
R27
16.9k
R26
88.7k
R22
105k
R19
324k
C24
300pF
LDO3V3LDO3V3
VCC-BAT
VSYS
VCC-USB
VCC-3.3V
VCC-USB
VCC-5V
LDO3V3
VSYS
VCC-5V VCC-5V
VCC-3.3V VCC-3.3V
VCC-3.3V
PWR-EN PWR-EN
VCC-3.3V VCC-3.3V
VCC-5V VCC-3.3V
R8
470
1
2
3
4
5
6
SW1
JS202011AQN
LDO3V3
R17
1k
PWR-EN
VCC-3.3V
Vcap
1 2
VCC-3.3V VCC-5V VCC-5VVCC-3.3V
VCC-3.3V VCC-3.3V
VSYS
RESET#
RB8-AN8
RB9-AN9
RB10-AN10
RB11-AN11
RB13-AN13
RB14-AN14
RB15-AN15
RC1-MB1-INT1
RC2-MB2-INT2
RC3-INT3
RC4-INT4
R1
2.2k
R2
2.2k
R3
10k
R5
10k R6
10k
R4
1k
T2 T3
VCC-3.3V VCC-3.3V USB-DET
USB-D_N
USB-D_P
USB-ID-RF3
R24 100
C26
10n
FP2
FERRITE
VCC-USB
C2
2.2µF
FP1
C5
22pF
C33
22pF
C6
22pF
C34
22pF
VCC-3.3V
VCC-3.3V AVCC
VCC-BAT VCC-BAT
R11
1k
R10
1M
R14
100k
R13
100k
R12
100k
T1
X2
32.768kHz
C9
0.1µF
C10
0.1µF
C11
0.1µF
C12
0.1µF
C35
0.1µF
C36
0.1µF
C37
0.1µF
C25
0.1µF
C18
0.1µF
C1
0.1µF
C3
0.1µF
C13
0.1µF
C30
22µF
C14
22µF
C40
10µF
C32
10µF
C38
2.2µF
C15
1µF
C7
1µF
C29
10pF
C27
1µF
C21
33pF
C23 10pF
VCC-3.3V
VCC-3.3V
X1
8MHz
VCC-3.3V
RE5-UART1-TX
RE6-UART1-RX
RC1-MB1-INT1
RC2-MB2-INT2
RC3-INT3
RC4-INT4
RG6-SPI2-SCK
RG7-SPI2-MISO
RG8-SPI2-MOSI
RESET#
RB2-MB2-AN2
RB1-MB2-RST
RB0-MB2-CS
RB3-MB1-CS
RB4-MB1-RST
RB5-MB1-AN5
RB6-PGC1
RB7-PGD1
RB8-AN8
RB9-AN9
RB10-AN10
RB11-AN11
AVCC
RB13-AN13
RB14-AN14
RB15-AN15
RF4_I2C2_SDA
RF5_I2C2_SCL
USB-ID-RF3
USB-DET
USB-D_N
USB-D_P
OSC32_IN
OSC32_OUT
OSC2
OSC1
RG15-STAT
RE9-T3
RESET#
RESET#
RB7-PGD1
RB6-PGC1
RD0-UART2-TX
RD11-UART2-RX
RE4-UART3-TX
RE3-UART3-RX
RD9-I2C1-SDA
RD10-I2C1-SCL
RA1-SPI1-MISO
RF13-SPI1-MOSI
RF12-SPI1-SCK
RE2-SPI3-SCK
RG13-SPI3-MOSI
RG12-SPI3-MISO
RD1-PWM1
RD2-PWM2
RD3-PWM3
RD4-PWM4
RD6-MB1-PWM5
RG15-STAT
RE8-T2
RA0-LD1
RG9-LD2
RA9-SENSEL
RA10-VSENSE
RA2-GPIO
RA3-GPIO
RA4-GPIO
RA5-GPIO
RA14-GPIO
RA15-GPIO
RD8-GPIO
RG1-GPIO
RG0-GPIO
RE0-GPIO
RD12-GPIO
RD13-GPIO
RG14-GPIO
RF0-GPIO
RF1-GPIO
RA6-GPIO
RA7-GPIO
RE1-GPIO
RD7-GPIO
RB5-MB1-AN5
RB4-MB1-RST
RB3-MB1-CS
RF12-SPI1-SCK
RA1-SPI1-MISO
RF13-SPI1-MOSI
RD6-MB1-PWM5
RC1-MB1-INT1
RE6-UART1-RX
RE5-UART1-TX
RB2-MB2-AN2
RB1-MB2-RST
RB0-MB2-CS
RG6-SPI2-SCK
RG7-SPI2-MISO
RG8-SPI2-MOSI
RD0-UART2-TX
RD11-UART2-RX
RC2-MB2-INT2
RD1-PWM1
RD2-PWM2
RD3-PWM3
RD4-PWM4
RE0-GPIO
RG0-GPIO
RD12-GPIO
RD13-GPIO
RD7-GPIO
RG1-GPIO
RF0-GPIO
RF1-GPIO
RA6-GPIO
RA7-GPIO
RE1-GPIO
RE3-UART3-RX
RE4-UART3-TX
RF5_I2C2_SCL
RF4_I2C2_SDARG13-SPI3-MOSI
RG12-SPI3-MISO
RE2-SPI3-SCK
RF8-GPIO
RD8-GPIO
RA15-GPIO
RA14-GPIO
RA5-GPIO
RA4-GPIO
RA3-GPIO
RA2-GPIO
M1
DMP2305U-7
M2
DMP2305U-7
C4
10µF
RA0-LD1
RE8-T2
RE9-T3
RG9-LD2
RD5-MB2_PWM6
1
2
3
4
5GND
ID
D+
D-
VBUS
CN2
USB MINIB
C19
2.2µF
C20
2.2µF
C31
22µF
C22
22µF
RA9-SENSEL
RA10-VSENSE
R28
R29
5
4
3
1
2
HD1
mProg
+
-BATT
CONN
CN1
HDR2
R9
R7
R30
R31
R32
R33
C16
10000pF
C28
10000pF
RG14-GPIO
VSYS
GND
SCK
MISO
MOSI
3.3V
GND
RESET#
GND
NC
NC
RX
TX
SCL
SDA
3.3V
GND
AN
INT
GPIO
GPIO
PWM
HDR1
LD3
R21
15k
L1 3.3µH
L2
2.2µH
L3
2.2µH
RD5-MB2_PWM6
30
29
28
27
34
33
58
57
56
55
54
53
52
46
36
35
42
43
44
45
37
50
9
48
49
11
12
32
72
69
68
67
66
65
64
63
4
3
78
77
24
23
18
17
16
15
14
13
5
6
7
8
10
79
80
1
2
22
21
20
19
62
61
60
59
38
39
40
41
47
71
31
51
70
26
25
76
75
74
73
100pin TQFP
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
RB13
RB12
RE7
RC1
RC2
RC3
RD9
RD8
RA15
D-/RG3
RB15
RB14
RF2
RF8
VBUS
VUSB3V3
VSS
VDD
RA6
RG0
RG1
RE0
RF1
RF0
RE6
RE5
RE2
RG13
RG12
RG14
RE1
RA7
RG8
RB2
RB3
RB4
RB5
RE9
RE8
RD11
RD10
USBID/RF3
VSS
RG9
RG7
RG6
RA1
RE3
RE4
RG15
VDD
RB0
RB1
RF4
RF5
RA14
RA4
RD14
RD15
D+/RG2
RF13
VDD
RA2
RA5
VDD
RA0
VDD
VSS
VSS
RF12
RA3
OSC2/RC15
MCLR
RC4
VDD
OSC1/RC12
RD0
RD3
RD1
RC13
RC14
VSS
RD2
RD12
RD13
RD4
AVSS
AVDD
RB9
RB8
RB10
RB11
RB7
RA9
RB6
RA10
RD5
RD6
RD7
VCAP
dsPIC33EP512MU810
U1
RF8-GPIO
RD9-I2C1-SDA
RD10-I2C1-SCL
RD9-I2C1-SDA
RD10-I2C1-SCL
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Page 7
1. Power supply
You can supply power to the board with a micro USB cable provided
in the package. On-board voltage regulators provide the appropriate
voltage levels to each component on the board. Power LED (GREEN)
will indicate the presence of power supply.
You can also power the board using a Li-Polymer battery, via onboard
battery connector. On-board battery charger circuit enables you
to charge the battery over USB connection. LED diode (RED) will
indicate when battery is charging. Charging current is ~300mA and
charging voltage is 4.2V DC.t
Battery power supply
USB
power supply
Figure 1-1: Connecting USB
power supply
Figure 1-2: Connecting
Li-Polymer battery
Some click boards need more current than the USB connection can supply. For 3.3V clicks, the upper limit is 750 mA; for 5V clicks, it’s 500
mA. In those cases you would need to use the battery as the power supply, or the vsys pin on the side of the board.
NOTE
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Page 8
2. dsPIC33EP512MU810 microcontroller
The clicker 2 for dsPIC33 development tool comes with the
dsPIC33EP512MU810 device. This 16-bit low power high
performance microcontroller is rich with on-chip peripherals
and features 512 KB of program memory and 53,248 bytes of
RAM. It has integrated full speed USB 2.0. support.
Key MCU features
∫ CPU speed: 70 MIPS
∫ 3568 Bytes Data SRAM
∫ Architecture: 16-bit
∫ Program memory: 512KB
∫ Pin count: 100
∫ RAM memory: 53,248 KB
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Page 9
∫ Using USB HID mikroBootloader,
∫ Using external mikroProg for dsPIC33 programmer
Figure 3-1:
dsPIC33EP512MU810
microcontroller
The microcontroller can be programmed in two ways:
3. Programming the microcontroller
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Page 10
You can program the microcontroller with a bootloader
which is preprogrammed by default. To transfer .hex
file from a PC to MCU you need bootloader software
(mikroBootloader USB HID) which can be downloaded
from:
3.1 Programming with mikroBootloader
Figure 3-2: USB HID mikroBootloader window
step 1 – Connecting clicker 2 for dsPIC33
01
01
To start, connect the USB cable, or if already connected
press the Reset button on your clicker 2 for dsPIC33. Click
the Connect button within 5s to enter the bootloader mode,
otherwise existing microcontroller program will execute.
After the mikroBootloader software is downloaded,
unzip it to desired location and start it.
https://download.mikroe.com/examples/starter-boards/
clicker-2/dspic33/clicker-2-dspic33-usb-hid-bootloader.zip
clicker 2 for PIC18FK Bootloader
WinRAR ZIP archive
clicker 2 for PIC18FK Bootloader
File folder
Software
File folder
mikroBootloader USB HID.exe
Bootloader tool for mikroElektron...
mikroElektronika
clicker 2 for dsPIC dsPIC33EP512MU810 USB HID
Bootloader v1.300.hex
HEX File
Firmware
File folder
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Page 11
step 3 – Selecting .HEX file step 2 – Browsing for .HEX file
Figure 3-3: Browse for HEX Figure 3-4: Selecting HEX
01 01
02
01
02
Click the Browse for HEX button and from a
pop-up window (Figure 3.4) choose the .HEX file
which will be uploaded to MCU memory.
Select .HEX file using open dialog window.
Click the Open button.
clicker2 for dsPIC33.hex HEX.file
01
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Page 12
step 4 – Uploading .HEX file
Figure 3-5: Begin uploading Figure 3-6: Progress bar
01
01 01
To start .HEX file bootloading click the
Begin uploading button.
Progress bar enables you to monitor .HEX file uploading.
01
Begin
uploading
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Page 13
step 5 – Finish upload
Figure 3-7: Restarting MCU Figure 3-8: mikroBootloader ready for next job
01
01
02
Click OK button after the uploading process is finished.
Press Reset button on clicker 2 for dsPIC33 board and wait
for 5 seconds. Your program will run automatically.
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Page 14
The microcontroller can be programmed with external mikroProg
for PIC programmer and mikroProg Suite for PIC software.
The external programmer is connected to the development
system via 1x5 connector Figure 3-9. mikroProg is a fast USB
2.0 programmer with hardware debugger support. It supports
PIC10®, dsPIC30/33®, PIC24® and PIC32® devices in a single
programmer. It supports over 570 microcontrollers
from Microchip®. Outstanding performance,
easy operation and elegant design are its key
features.
3.2 Programming with mikroProg programmer
Figure 3-9: mikroProg connector
You can also
program it
with ICD2®
or ICD3® if
you reroute
the wires like
shown here.
4. GND
5. VCC 3.3V
6. MCLR#
2. PGC
3. PGD
1. NC
GND
RESET#
RB7
RB6
VCC 3.3V
ICD2/3
programmer
clicker 2 for
dsPIC33 1x5
programming
headers
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Page 15
mikroProg Suite for dsPIC® software
mikroProg programmer requires
special programming software called
mikroProg Suite for dsPIC®. This
software is used for programming
of ALL Microchip® microcontroller
families, including PIC10®, PIC12®,
PIC16®, PIC18®, dsPIC30/33®, PIC24®
and PIC32®. Software has intuitive
interface and SingleClick™ programming
technology. Just by downloading the
latest version of mikroProg Suite your
programmer is ready to program new
devices. mikroProg Suite is updated
regularly, at least four times a year, so
your programmer will be more and more
powerful with each new release.
Figure 3-10: Main window of mikroProg Suite for
dsPIC® programming software
dsPIC
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Page 16
Figure 4-1:
Two LEDs, two buttons and a
reset button
4. Buttons and LEDs
The board also contains a 01 reset button and a
pair of 02 buttons and 03 LEDs, as well
as an ON/OFF switch. The
RESET button is used
to manually reset
the microcontroller—
it generates a low
voltage level on the
microcontroller’s reset pin.
LEDs can be used for visual
indication of the logic state on
two pins (RA0 and RG9). An active
LED indicates that a logic high (1) is
present on the pin. Pressing any of the
two buttons can change the logic state of the
microcontroller pins (T2 and T3) from logic high
(1) to logic low (0).
03 02 01
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Page 17
5. Power management and battery charger
clicker 2 for dsPIC33 features LTC®3586-2,
a highly integrated power management and
battery charger IC that includes a current
limited switching PowerPath manager.
LTC®3586 also enables battery charging
over a USB connection.
Figure 5-1:
power
management and
battery charger IC
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Page 18
6. Oscillators
Board is equipped with 8MHz crystal
oscillator (X1) circuit that provides
external clock waveform to the
microcontroller OSC1 and OSC2 pins.
This base frequency is suitable for further
clock multipliers and ideal for generation
of necessary USB clock, which ensures
proper operation of bootloader and your
custom USB-based applications. And the
32. TK MHz oscillator (X2), a Real-Time
Clock and Calendar (RTCC) module.
Figure 6-1:
8MHz crystal oscillator
module (X1) and
32.768 KHz crystal
oscillator
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Page 19
dsPIC33 microcontrollers has an integrated USB
module, which enables you to implement USB
communication functionality to your clicker 2 board.
Connection with target USB host is done over a
micro USB connector which is positioned next to the
battery connector.
7. USB connection
Figure 7-1:
Connecting USB cable to clicker 2
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Page 20
SPI LinesInterrupt LinesAnalog Lines
Digital lines I2C Lines UART lines PWM lines
8. Pinout
VSYSRSTReset pin System power supply
GNDGNDReference Ground Reference Ground
RB15
RB14
RB13RD1
RB11RD2
RB10RD3
RB9RD4
RB8RD13
RC1RD12
RC2RD7
RC3RF0
RC4RF1
RD9RG1
RD8RG0
RA15RA6
RA14RA7
RA5RE0
RA4RE1
RA3RG14
RA2RE3
RE2RE4
RG12RF5
RG13RF4
3.3V3.3V3.3V power supply
GNDGNDReference Ground
Pin functions Pin functions
Digital I/O lines
SPI3 Lines
Interrupt Lines
Analog Lines
RX
TX SCK
SCL SDI
SDA SDO
UART3 Lines
I2C2 Lines
PWM lines
Digital I/O lines
3.3V power supply
Reference Ground
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