Development Hardware Connections; Attach Module To Prototyping Board - Rabbit RabbitCore RCM3000 Getting Started Manual
C-programmable module with ethernet
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Also See for RabbitCore RCM3000:
- User manual (128 pages) ,
- Getting started (2 pages) ,
- User manual (26 pages)
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2.3 Development Hardware Connections
There are four steps to connecting the Prototyping Board for use with Dynamic C and the sam-
ple programs:
1. Attach the RCM3000 module to the Prototyping Board.
2. Connect the programming cable between the RCM3000 module and the workstation PC.
3. Connect the module's Ethernet port to a PC's Ethernet port, or to an Ethernet network.
4. Connect the power supply to the Prototyping Board.
2.3.1 Attach Module to Prototyping Board
Turn the RCM3000 module so that the Ethernet connector end of the module extends off the
Prototyping Board, as shown in Figure 3 below. Align the pins from headers J1 and J2 on the
bottom side of the module into header sockets RCM2JA and RCM2JB on the Prototyping
Board (these sockets were labeled J12 and J13 on earlier versions of the Prototyping Board).
GND
GND
VBAT
EXT
/RES
IN
SM0
/IOWR
PG5
RCM3000
PG7
PE1
PE4
PE6
PF7
PF5
PB7
PB5
PB3
PB0
GND
GND
VBAT
EXT
/RES
IN
SM0
/IOWR
PG5
PG7
PE1
PE4
PE6
PF7
PF5
PB7
PB5
PB3
PB0
Figure 3. Installing the RCM3000 Module on the Prototyping Board
Although you can install a single module into either the
on the Prototyping Board, all the Prototyping Board features (switches, LEDs, serial port
drivers, etc.) are connected to the
module in the
MASTER
NOTE: It is important that you line up the pins on headers J1 and J2 of the RCM3000
module exactly with the corresponding pins of sockets RCM2JA and RCM2JB on the
Prototyping Board. The header pins may become bent or damaged if the pin alignment
is offset, and the module will not work. Permanent electrical damage to the module may
also result if a misaligned module is powered up.
Press the module's pins firmly into the Prototyping Board header sockets.
Getting Started
RN1
NC
PD1
PD0
RCM1JA
GND
PD7
+3.3V
PD6
RCM3000 ETHERNET CORE MODULE
VRAM
PD3
PD2
SM1
PD5
PD4
/IORD
PG3
PG2
PG1
PG4
PG0
PG6
PD4
PD5
PE0
PC5
PC4
PE3
PC3
PC2
PC1
PC0
PE5
PE7
PF0
PF1
PF6
PF2
PF3
PF4
PA0
PA1
PB6
PA2
PA3
PB4
PA4
PA5
PB2
PA6
PA7
SLAVE
/RES
PE4
GND
UX10
MASTER
J1
J3
C1
RC15
RCM2
RC24
R1
RC19
R4
RC20
RC23
R3
UX9
C3
R5
R2
RC14
RC17
RC22
RC16
RC13
UX3
RC21
RC12
R21
RC10
RC2
RC11
NC
PD1
PD0
+3.3V
PD7
PD6
VRAM
PD3
PD2
SM1
PD5
PD4
/IORD
PG3
PG2
PG4
PG1
PG0
PG6
PD4
RCM2JA
RCM2JB
PD5
PE0
PC5
PC4
PE3
PC3
PC2
PE5
PC1
PC0
PE7
PF0
PF1
U1
PF6
PF2
PF3
PF4
PA0
PA1
C5
PB6
PA2
PA3
C8
PB4
PA4
RCM2JA
PA5
C6
RESET
S2
PB2
PA6
PA7
RxC TxC
/RES
STATUS
GND
C7
J5
J4
RS-232
TxB RxB
GND
MASTER
position.
RCM1JB
RN5
R17
U4
+5V
Battery
+3.3V
BT1
J15
UX11
UX2
GND
GND
GND
+3.3V
+3.3V
+3.3V
+3.3V
+5V
+5V
RC6
RC7
C9
U3
UX5
R14
RC9
UX7
RCM30/31/32XX SERIES
RCM2JB
PROTOTYPING BOARD
S3
PG6
PG7
DS1
DS2
DISPLAY BOARD
MASTER
position. We recommend you install a single
L1
C17
J11
D1
R20
C13
2.5 MM JACK
D2
GND
+DC
C12
U5
+5V
+3.3V
GND
+5V
+5V
UX4
J8
RC25
RC4
C16
RC5
DISPLAY BOARD
U6
C14
RC27
U3
RC28
RC29
RC26
UX13
J10
J7
DISPLAY BOARD
or the
position
SLAVE
11
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