Vinco Development Module

Future Technology Devices International Ltd.
Vinco Development Module
Datasheet
The Vinco module is a Vinculum based development platform inspired by Arduino projects.
Document Reference No.: FT_000327
Version 2.01
Issue Date: 2012-11-06
Future Technology Devices International Ltd (FTDI)
Unit 1, 2 Seaward Place, Centurion Business Park, Glasgow, G41 1HH, United Kingdom
Tel.: +44 (0) 141 429 2777
Fax: + 44 (0) 141 429 2758
E-Mail (Support): [email protected]
Web: www.ftdichip.com
Use of FTDI devices in life support and/or safety applications is entirely at the user’s risk, and the user agrees to
defend, indemnify and hold harmless FTDI from any and all damages, claims, suits or expense resulting from such
use.
Copyright © 2010 Future Technology Devices International Limited
Document Reference No.: FT_000327
Vinco Development Module Datasheet Version 2.01
Clearance No.: FTDI#173
1
Introduction
Vinco is a development module based on the FTDI Vinculum II, VNC2 dual USB host/slave IC. Vinco is
designed as a prototyping platform for VNC2 based designs and applications.
The mechanical form of the module, and the concept of providing free software development library
and tools, is inspired by the Arduino concept. Vinco is a superset of the Duemilanove / Uno with 2 extra
rows of headers providing an extra 10 pins.
The Vinco programming language utilises a subset of standard ANSII ‘C’ with FTDI supported, free of
charge software development tools, libraries and reference designs for fast prototyping different
modules including support for a variety of USB classes such as Mass Storage, Human Interface Devices
(keyboards, mice), audio devices, video devices (webcam) and many more still under development.
Vinco may also be used with many existing Arduino shields by porting the firmware to run on the VNC2
IC.
The module uses a VNC2-64Q package to facilitate 38 GPIO options on 0.1” pitch header pins. A 10 bit
A/D converter has also been added to offer connectivity to analogue inputs. This A/D converter can be
read by the VNC2-64Q SPI host interface.
For USB connectivity the module includes one USB type A connector for a USB host port and one miniB connector for a USB slave port to provide access to the VNC2-64Q USB ports.
An additional connector, to mate with the VII debugger/programmer module, (also available from
FTDI) is provided to connect to the VNC2 IDE (Integrated Development Environment) for creating and
debugging application code to run on the Vinco module.
The debugger/programmer module also allows the Vinco module to be programmed. This can be done by
taking a .ROM file of the application source code and flash into the VNC2-64Q through a USB connection
via a PC. For further details on how to program the VNC2, please see applications Note Vinculum-II
Debug Interface Description.
A bare prototyping Vinco PCB (Vinco_Proto) which has the same PCB form factor as the Vinco is also
available. This can be used to prototype most shield application, comes with a selection of components
and mates directly to the Vinco connectors in a style similar to Arduino shields.
Figure 1.1 – VINCO
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1.1 Key Features
The Vinco incorporates the following features:

Microcontroller:
VNC2-64Q

Operating voltage:
5V

Input power supply:
9V

Digital I/O:
30

Analogue I/O:
8

USB port:
2 – configurable for host or device operation

FLASH memory:
256kbytes

RAM:
16kbytes

Variable clock speeds:
12/24/48MHz

Superset of the Arduino Duemilanove / Uno development boards.

FTDI Integrated Development Environment (IDE) including code editor, compiler, assembler and
debugger, which is supplied free of charge, and supports ANSII C coding for easy portability and
maintainability.

Precompiled drivers for a variety of interfaces e.g. USB, UART, SPI.

Precompiled driver support for a wide range of USB host classes including Mass Storage, Human
Interface Devices (keyboards, mice), audio devices, video devices (webcam) with many more
under development.

Precompiled driver support for a wide range of USB device classes including FTDI peripheral ICs,
Human Interface Devices (keyboards, mice) with many more under developed.

Compatible with existing Arduino shields.

A software configuration wizard is currentlty under development.
1.2 VNC2 IC
VNC2 is the second of FTDI’s Vinculum family of Embedded dual USB host controller devices. VNC2 device
provides USB Host interfacing capability for a variety of different USB device classes including support for
BOMS (bulk only mass storage), Printer, HID (human interface devices). For mass storage devices such
as USB Flash drives, VNC2 also transparently handles the FAT file structure.
Communication with non USB devices such as a low cost microcontroller is accomplished via either UART,
SPI or parallel FIFO interfaces. VNC2 provides a new cost effective solution for providing USB Host
capability into products that previously did not have the hardware resources available.
VNC2 has the capability to enable customers to develop custom firmware using the Vinculum II
development software tool suite. The development tools support compiler, assembler, linker and
debugger tools complete within an integrated development environment (IDE).
The Vinculum-II family of devices are available in Pb-free (RoHS compliant) 32-lead LQFP, 32-lead QFN,
48-lead LQFP, 48-lead QFN, 64-Lead LQFP and 64-lead QFN packages For more information on the ICs
refer to http://www.ftdichip.com/Products/ICs/VNC2.htm
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1.3 Part Numbers
Part Number
Description
VNCLO-MB1A
Vinco Motherboard
VNCLO-PSU-US
Vinco +9V/1A PSU ( Optional ) - USA
VNCLO-PSU-EU
Vinco +9V/1A PSU ( Optional ) - Europe
VNCLO-PSU-UK
Vinco +9V/1A PSU ( Optional ) - UK
VNCLO-SHLD1A
Vinco_Proto prototyping shield (Optional)
VNC2 DEBUG MODULE
VNC2 debugger/programmer module
VNCLO-START1
Vinco and a debugger/programmer module
VNCLO-START1
VNCLO-SHLD-1A * 2pc
VNCLO-PREM1
VNCLO-PSU-XX (dependent regional requirement
(UK/US/EU)
A mini B cable
USB "A" to Mini-"B" Cable, 1m
USB A to mini-"B" Cable, 1m
Table 1.1 – Vinco Part Numbers
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Table of Contents
1
2
3
4
Introduction .................................................................... 1
1.1
Key Features ............................................................................. 2
1.2
VNC2 IC .................................................................................... 2
1.3
Part Numbers ............................................................................ 3
Functionality ................................................................... 3
2.1
Power ....................................................................................... 3
2.2
Input/Output ............................................................................ 3
2.3
LEDs & PWREN# ....................................................................... 3
Pin Out and Signal Description ........................................ 4
3.1
Module Connector Descriptions ................................................. 4
3.2
Vinco Connectors : Pins and Signal Description ........................ 5
3.3
USB Slave Port : Pins and Signal Description ............................ 7
3.4
USB Host Port : Pins and Signal Description .............................. 7
3.5
Configuration Jumpers .............................................................. 8
Configurable Pin outs ...................................................... 9
4.1
UART Interface ......................................................................... 9
4.1.1
4.2
Serial Peripheral Interface (SPI) ............................................ 10
4.2.1
Signal Description - SPI Slave ................................................................... 10
4.2.2
Signal Description - SPI Master ................................................................. 10
4.3
Parallel FIFO Interface - Asynchronous Mode ......................... 11
4.3.1
5
Signal Description – UART Interface ............................................................. 9
Signal Description - Parallel FIFO Interface ................................................. 11
Debugger Interface ....................................................... 12
5.1
Signal Description - Debugger Interface ................................. 12
6
ADC Converter ............................................................... 13
7
Firmware....................................................................... 14
7.1
Firmware Support ................................................................... 14
7.2
Available Firmware ................................................................. 14
7.3
Firmware Upgrades ................................................................. 14
7.4
Arduino Shield Compatible Firmware ...................................... 14
8
Mechanical Dimensions ................................................. 15
9
Schematic Diagram ....................................................... 16
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10 Arduino Shields ............................................................. 17
11 Contact Information ...................................................... 18
Appendix A – References ................................................................. 19
Appendix B – List of Figures and Tables .......................................... 20
List of Figures ................................................................................. 20
List of Tables ................................................................................... 20
Appendix C – Revision History ......................................................... 21
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Functionality
2.1 Power
The Vinco requires +5V for the USB host ports to power USB devices from the module. This is further
regulated to +3.3V for VNC2.
A +9V/1A DC supply is also available which can be used as an AC-DC adapter (wall-wart). The +9V is
regulated to +5V and +3V3 on the Vinco module.
As an alternative to the AC-DC adapter the on board regulators can be taken out of circuit with jumpers
to allow the +5V from a USB host port to power the module. Care should be taken with this approach as
a USB host port can only provide a maximum of 500mA, which must power the Vinco and potentially any
devices connected to the Vinco.
The +5V and +3V3 supplies may also be accessed on the J1 header pins.
VNC2 requires between 8 and 24mA depending on the clock speed at which the VNC2 core is running.
2.2 Input/Output
Due to the flexibility of the VNC2 IC the actual definition of each pin is not fixed. The firmware developed
for any application can use the VNC2 IO Mux to route a signal, e.g. UART TXD, to a range of IO pins. An
IOMux utility built into the free tool chain development environment, IDE, allows the developer to define
the IO from a GUI interface. The utility will then convert the users IO selection into C code to be included
as part of the project firmware...
There are 38 configurable IO pins available to the user, 8 of which are reserved for connecting to the
onboard ADC device. The other 30 pins may be used for GPIO, UART, SPI or FIFO connectivity depending
on the interface of the shield designed to connect to the Vinco module.
There are 2 USB ports on the Vinco. The firmware will determine if the port is configured for USB host
operation or USB device operation.
2.3 LEDs & PWREN#
There are 3 LEDs and one power control signal, PWREN# on Vinco.
LED1 is driven by the VNC2-64Q IC depending on which firmware is loaded. It may be used to indicate
traffic on the USB slave port connected via CN3. LED1 is connected to the VNC2-64Q IC on pin 39.
Configure this pin for a GPIO output in order to use this LED.
LED2 is driven by the VNC2-64Q IC depending on which firmware is loaded. It may be used to indicate
traffic on the USB host port connected via CN2.LED2 is connected to the VNC2-64Q IC on pin 40.
Configure this pin for a GPIO output in order to use this LED.
LED3 is driven by the 3V3 supply that also powers the VNC2-64Q IC. It will indicate when the Vinco
module is powered.
PWREN# is a signal that controls the power output to the USB Host connector, CN2. PWREN# is
connected to the VNC2-64Q IC on pin 41. Configure this pin for a GPIO output in order to make power
available at CN2 for USB peripherals.
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Pin Out and Signal Description
CN3
3.1 Module Connector Descriptions
LED2
LED1
CN2
CN1
LED3
J4
J6
JP1
SW2
JP2
1
U1
J3
J5
1
J1
1
U2
J2
1
1
J7
Figure 3.1 – Vinco Diagram
A detailed description of each pin out is given in the next section.
CONNECTOR
FUNCTION
CN1
Power input
CN2
USB host port
CN3
USB slave port
J1
Interface to shield boards
J2
Interface to shield boards
J3
Interface to shield boards
J4
Interface to shield boards
J5
Interface to shield boards
J6
Interface to shield boards
J7
Debug port
Table 3.1 – Vinco Connector Descriptions
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3.2 Vinco Connectors : Pins and Signal Description
Pin No.
Name
Pin Name
on PCB
Type
Description
9V module supply pin. This pin can be used to provide
the 5.0V input to the Vinco when the V2DIP2-64 is not
powered from the USB connector (VBUS) or the
debugger interface. Also connected to DIL connector
pins J1-1 and J3-6.
CN1
9V
PWR
PWR Input
CN2
USB
USB2
USB host port
Connects to VNC2-64Q USB port 2
CN3
USB
USB1
USB slave port
Connects to VNC2-64Q USB port 1
J1-1
AIN6
ADC6
Analogue Input
Analogue input to channel 6 of the ADC
or 5V safe bidirectional data/control bus bit 30
J1-2
AIN7
ADC7
Analogue Input
J1-3
RESET#
RESET#
Input
J1-4
VCC3V3
3V3
PWR Output
3V3 output for external circuitry
J1-5
J1-6
J1-7
J1-8
VCC5V
GND
GND
VCCIN
5V
GND
GND
VCCIN
Power output
GND
GND
PWR Input
5V output for external circuitry
GND for PCB
GND for PCB
Alternative input to CN1 for supply.
J2-1
AIN0
ADC0
Analogue Input
Analogue input to channel 0 of the ADC or 5V safe
bidirectional data/control bus bit 24
J2-2
AIN1
ADC1
Analogue Input
Analogue input to channel 1 of the ADC or 5V safe
bidirectional data/control bus bit 25
J2-3
AIN2
ADC2
Analogue Input
Analogue input to channel 2 of the ADC or 5V safe
bidirectional data/control bus bit 26
J2-4
AIN3
ADC3
Analogue Input
Analogue input to channel 3 of the ADC or 5V safe
bidirectional data/control bus bit 27
J2-5
AIN4
ADC4
Analogue Input
Analogue input to channel 4 of the ADC or 5V safe
bidirectional data/control bus bit 28
J2-6
AIN5
ADC5
Analogue Input
Analogue input to channel 5 of the ADC or 5V safe
bidirectional data/control bus bit 29
IOBUS33
RXD
IOBUS32
TXD
J3-3
J3-4
J3-5
J3-6
J3-7
J3-8
IOBUS34
IOBUS35
IOBUS36
IOBUS37
IOBUS38
IOBUS39
IO34
IO35
IO36
IO37
IO38
IO39
I/O
I/O
I/O
I/O
I/O
I/O
5V safe bidirectional
– default to RXD
5V safe bidirectional
– default to TXD
5V safe bidirectional
5V safe bidirectional
5V safe bidirectional
5V safe bidirectional
5V safe bidirectional
5V safe bidirectional
J4-1
J4-2
IOBUS6
IOBUS7
IO6
IO7
I/O
I/O
5V safe bidirectional data / control bus bit 6
5V safe bidirectional data / control bus bit 7
J3-1
J3-2
I/O
I/O
Analogue input to channel 7 of the ADC
or 5V safe bidirectional data/control bus bit 31
Reset for the VNC2-64Q
data / control bus bit 33
data / control bus bit 32
data
data
data
data
data
data
/
/
/
/
/
/
control
control
control
control
control
control
Copyright © 2012 Future Technology Devices International Limited
bus
bus
bus
bus
bus
bus
bit
bit
bit
bit
bit
bit
34
35
36
37
38
39
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5V safe bidirectional data / control bus bit 34
– default to SPI Slave select
J4-3
SS
IO11
I/O
J4-4
MOSI
IO9
I/O
J4-5
MISO
IO10
I/O
J4-6
SCK
IO8
I/O
5V safe bidirectional data / control bus bit 37
– default to SPI SCK. Also connects to onboard ADC
J4-7
J4-8
GND
AREF
GND
AREF
GND
Analogue Input
GND for PCB
Analogue input to provide reference voltage for ADC
J5-1
J5-2
J5-3
J5-4
J5-5
J5-6
J5-7
J5-8
IOBUS41
IOBUS42
IOBUS43
IOBUS1
IOBUS2
IOBUS3
IOBUS4
IOBUS5
IO41
IO42
IO43
IO1
IO2
IO3
IO4
IO5
I/O / PWREN
I/O
I/O
I/O
I/O
I/O
I/O
I/O
5V
5V
5V
5V
5V
J6-1
J6-2
J6-3
J6-4
J6-5
J6-6
J6-7
J6-8
IOBUS12
IOBUS13
IOBUS14
IOBUS15
IOBUS16
IOBUS17
IOBUS18
IOBUS19
IO12
IO13
IO14
IO15
IO16
IO17
IO18
IO19
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
5V
5V
5V
5V
5V
5V
5V
5V
J7-1
J7-2
J7-3
J7-4
Debug I/F
NC
GND
RESET#
Debug I/F
GND
RESET#
I/O
NV
GND
Input
J7-5
PROG#
PROG#
Input
J7-6
VBUS
5V
PWR Input
5V safe bidirectional data / control bus bit 35
– default to SPI MOSI. Also connectors to onboard
ADC
5V safe bidirectional data / control bus bit 36
– default to SPI MISO Also connectors to onboard ADC
safe
safe
safe
safe
safe
bidirectional
bidirectional
bidirectional
bidirectional
bidirectional
data
data
data
data
data
/
/
/
/
/
control
control
control
control
control
bus
bus
bus
bus
bus
bit
bit
bit
bit
bit
41
42
43
1
2
5V safe bidirectional data / control bus bit 3
5V safe bidirectional data / control bus bit 4
5V safe bidirectional data / control bus bit 5
safe
safe
safe
safe
safe
safe
safe
safe
bidirectional
bidirectional
bidirectional
bidirectional
bidirectional
bidirectional
bidirectional
bidirectional
data
data
data
data
data
data
data
data
/
/
/
/
/
/
/
/
control
control
control
control
control
control
control
control
bus
bus
bus
bus
bus
bus
bus
bus
bit
bit
bit
bit
bit
bit
bit
bit
12
13
14
15
16
17
18
19
Interface to VNC2-64Q debugger pin
Not connected – used as a key for VII Debugger
module
GND
for PCB
Reset for the VNC2-64Q
Used to put the VNC2-64Q into PROGRAM mode if
loading ROM file over UART
May be used by debugger to power module
Table 3.2 – Pin Signal Descriptions
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3.3 USB Slave Port : Pins and Signal Description
Connector CN3 is a USB mini-B, designed for connecting to USB hosts. This connector routes to the
VNC2-64Q USB port 1 and the firmware on the VNC2-64Q should be written to ensure it is in slave mode.
The port is USB 2.0 full speed compliant.
This port can also be used to provide power to the Vinco with 5V at 500mA max.
Pin No.
Signal
J1-1
5V (can be used to power
PCB or disabled with JP1)
J1-2
USB DM
J1-3
USB DP
J1-4
Not connected
J1-5
GND
Table 3.3 – USB Slave Pin Out
3.4 USB Host Port : Pins and Signal Description
Connector CN2 is a USB type A connector designed for connecting to USB devices. This connector routes
to the VNC2-64Q USB port 2 and the firmware on the VNC2-64Q should be written to ensure it is in host
mode.
The port is USB 2.0 full speed compliant.
Pin No.
Signal
1
5V supply to peripheral
device. Enabled by the
VNC2-64Q
2
USB DM
3
USB DP
4
GND
Table 3.4 – USB Slave Pin Out
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3.5 Configuration Jumpers
There are two configuration jumper links on the Vinco.
JP1 is used to select the Vinco power source.
JP2 is used to select the reference voltage for the ADC (U2)
Jumper
Connect pins 1-2
Connect Pins 2-3
JP1
Vinco is Powered from USB host
via CN3
Vinco is Powered from external
9V supply
JP2
ADC reference voltage = 3V3
ADC reference voltage = 5V0
Table 3.5 – Jumper Options
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Configurable Pin outs
4.1 UART Interface
When the Vinco data and control buses are configured as a UART interface, the interface implements a
standard asynchronous serial UART port with flow control. The UART can support baud rates from
300baud to 6Mbaud. The UART interface is described in more detail in the Vinculum-II datasheet please
refer to: - FTDI website
4.1.1 Signal Description – UART Interface
The UART signals can be programmed to a choice of available I/O pins. Table 4.1 explains the available
pins for each of the UART signals. This is a subset of what the VNC2-64Q is capable of to avoid conflict
with other functions on the Vinco module.
Available Pins
Name
Type
J2-1, J2-5, J3-2, J3-5, J4-6, J5-7, J6-1,
J6-5
uart_txd
Output
J2-2, J2-6, J3-1, J3-6, J4-4, J5-1, J5-4,
J5-8, J6-2, J6-6
uart_rxd
Input
J1-1, J2-3, J3-3, J3-7, J4-1, J4-5, J5-2,
J5-5, J6-3, J6-7
uart_rts#
Output
J1-2, J2-4, J3-4, J3-8, J4-2, J4-3, J5-3,
J5-6, J6-4, J6-8
uart_cts#
Input
J2-1, J2-5, J3-2, J3-5, J4-6, J6,7, J6-1,
J6-5
uart_dtr#
Output
J2-2, J2-6, J3-1, J3-6, J4-4, J5-1, J5-4,
J5-8, J6-2, J6-6
uart_dsr#
Input
Data Request (Data Set Ready Control)
Input
J1-1, J2-3, J3-3, J3-7, J4-1, J4-5, J5-2,
J5-5, J6-3, J6-7
uart_dcd#
Input
Data Carrier Detect Control Input
J1-2, J2-4, J3-4, J3-8, J4-2, J4-3, J5-3,
J5-6, J6-4, J6-8
uart_ri#
Input
Ring Indicator Control Input. RI# low can
be used to resume the PC USB Host
controller from suspend.
Output
Enable Transmit Data for RS485 designs.
TXDEN may be used to signal that a
transmit operation is in progress. The
TXDEN signal will be set high one bit-time
before data is transmitted and return low
one bit time after the last bit of a data
frame has been transmitted
J2-1, J2-5, J3-2, J3-5, J4-6, J5-7, J6-1,
J6-5
uart_tx_active
Description
Transmit asynchronous data output
(Default J3-2)
Receive asynchronous data input (Default
J3-1)
Request To Send Control Output
Clear To Send Control Input
Data Acknowledge (Data Terminal Ready
Control) Output
Table 4.1 – Data and Control Bus Signal Mode Options – UART
Note: # defines active low signals.
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4.2 Serial Peripheral Interface (SPI)
The VNC2-64Q has one master module and two slave modules. These modules are described more fully in
a VNC2 datasheet please refer to: - FTDI website
4.2.1 Signal Description - SPI Slave
The SPI Slave signals can be programmed to a choice of available I/O pins. Table 4.2 explains the
available pins for each of the SPI Slave signals. This is a subset of what the VNC2-64Q is capable of to
avoid conflict with other functions on the Vinco module.
Available Pins
J2-1, J2-5, J3-2, J3-5, J4-6, J5-7, J6-1,
J6-5
J2-2, J2-6, J3-1, J3-6, J4-4, J5-1, J5-4,
J5-8, J6-2, J6-6
Name
Type
Description
spi_s0_clk
Input
Slave clock input
Input/Output
Master Out Slave In
spi_s1_clk
spi_s0_mosi
spi_s1_mosi
J1-1, J2-3, J3-3, J3-7, J4-1, J4-5, J5-2,
J5-5, J6-3, J6-7
spi_s0_miso
J1-2, J2-4, J3-4, J3-8, J4-2, J4-3, J5-3,
J5-6, J6-4, J6-8
spi_s0_ss#
Synchronous data from master to slave
Output
spi_s1_miso
Master In Slave Out
Synchronous data from slave to master
Input
Slave chip select
spi_s1_ss#
Table 4.2 – Data and Control Bus Signal Mode Options – SPI Slave
Note: # defines active low signals.
4.2.2 Signal Description - SPI Master
The SPI Master signals can be programmed to a choice of available I/O pins. Table 4.3 shows the SPI
master signals and the available pins that they can be mapped. This is a subset of what the VNC2-
64Q is capable of to avoid conflict with other functions on the Vinco module.
Available Pins
J2-1, J2-5, J3-2, J3-5, J4-6, J5-7, J6-1,
J6-5
Name
spi_m_clk
Type
Description
Output
SPI master clock input
(J4-6 is the default)
spi_m_mosi
Output
J2-2, J2-6, J3-1, J3-6, J4-4, J5-1, J5-4,
J5-8, J6-2, J6-6
Master Out Slave In
Synchronous data from master to slave
(J4-4 is the default)
spi_m_miso
Input
J1-1, J2-3, J3-3, J3-7, J4-1, J4-5, J5-2,
J5-5, J6-3, J6-7
Master In Slave Out
Synchronous data from slave to master
(J4-5 is the default)
J1-2, J2-4, J3-4, J3-8, J4-2, J4-3, J5-3,
J5-6, J6-4, J6-8
J2-1, J2-5, J3-2, J3-5, J4-6, J6,7, J6-1,
J6-5
spi_m_ss_0#
Output
Active low slave select 0 from master to slave
0
This SS# is used with the onboard ADC
spi_m_ss_1#
Output
Active low slave select 1 from master to slave
1
Table 4.3 – Data and Control Bus Signal Mode Options – SPI Master
Note: # defines active low signals.
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4.3 Parallel FIFO Interface - Asynchronous Mode
The Parallel FIFO Asynchronous mode is functionally the same as the Parallel FIFO Interface available in
the FTDI VDIP1 module and has an eight bit data bus, individual read and write strobes and two
hardware flow control signals.
4.3.1 Signal Description - Parallel FIFO Interface
The Parallel FIFO Interface signals can be programmed to a choice of available I/O pins. Table 4.4 shows
the Parallel FIFO Interface signals and the pins that they can be mapped. Details of the operation and
timing can be found in the VNC2 datasheet.
Available Pins
Name
J2-1, J2-5, J3-2, J3-5, J4-6, J5-7, J6-1,
J6-5
fifo_data[0]
J2-2, J2-6, J3-1, J3-6, J4-4, J5-1, J5-4,
J5-8, J6-2, J6-6
fifo_data[1]
J1-1, J2-3, J3-3, J3-7, J4-1, J4-5, J5-2,
J5-5, J6-3, J6-7
fifo_data[2]
J1-2, J2-4, J3-4, J3-8, J4-2, J4-3, J5-3,
J5-6, J6-4, J6-8
fifo_data[3]
J2-1, J2-5, J3-2, J3-5, J4-6, J5-7, J6-1,
J6-5
fifo_data[4]
J2-2, J2-6, J3-1, J3-6, J4-4, J5-1, J5-4,
J5-8, J6-2, J6-6
fifo_data[5]
J1-1, J2-3, J3-3, J3-7, J4-1, J4-5, J5-2,
J5-5, J6-3, J6-7
fifo_data[6]
J1-2, J2-4, J3-4, J3-8, J4-2, J4-3, J5-3,
J5-6, J6-4, J6-8
fifo_data[7]
J2-1, J2-5, J3-2, J3-5, J4-6, J5-7, J6-1,
J6-5
fifo_rxf#
J2-2, J2-6, J3-1, J3-6, J4-4, J5-1, J5-4,
J5-8, J6-2, J6-6
fifo_txe#
J1-1, J2-3, J3-3, J3-7, J4-1, J4-5, J5-2,
J5-5, J6-3, J6-7
fifo_rd#
Type
Description
I/O
FIFO data bus Bit 0
I/O
FIFO data bus Bit 1
I/O
FIFO data bus Bit 2
I/O
FIFO data bus Bit 3
I/O
FIFO data bus Bit 4
I/O
FIFO data bus Bit 5
I/O
FIFO data bus Bit 6
I/O
Output
Output
Input
FIFO data bus Bit 7
When high, do not read data from the FIFO.
When low, there is data available in the FIFO
which can be read by strobing RD# low, then
high.
When high, do not write data into the FIFO.
When low, data can be written into the FIFO
by strobing WR high, then low.
Enables the current FIFO data byte on
D0...D7 when low. Fetches the next FIFO
data byte (if available) from the receive FIFO
buffer when RD# goes from high to low
Writes the data byte on the D0...D7 pins into
the transmit FIFO buffer when WR goes from
Input
high to low.
Table 4.4 – Data and Control Bus Signal Mode Options – Parallel FIFO Interface
J1-2, J2-4, J3-4, J3-8, J4-2, J4-3, J5-3,
J5-6, J6-4, J6-8
fifo_wr#
Note:
1. # defines active low signals.
2. Also PWM outputs can be routed to any of the pins listed in table 4.1
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5
Debugger Interface
The purpose of the debugger interface, J8, is to provide access to the VNC2 silicon/firmware debugger.
The debug interface can be accessed by connecting a VNC2_Debugger_Programmer_Module to the J8
connector. This debugger/programmer module will give access to the debugger through a USB connection
to a PC via the Integrated Development Environment (IDE). The IDE is accessed through a GUI to the
VNC2 software development tool-chain and gives the following debug capabilities through the debugger
interface:

Flash Erase, Write and Program.

Application debug - application code can have breakpoints, be single stepped and can be halted.

Detailed internal debug - memory and register read/write access.
The IDE may be downloaded from http://www.ftdichip.com/Firmware/V2TC/VNC2toolchain.htm
The Debugger Interface, and how to use it, is further described in the following applications note:
Vinculum-II Debug Interface Description.
5.1 Signal Description - Debugger Interface
Table 5.1 shows the signals and pins description for the Debugger Interface pin header J8
Name
Pin No.
Name
On PCB
Type
J7-1
IO0
DBG
I/O
J7-2
-
[Key]
-
J7-3
GND
GND
PWR
Description
Debugger Interface
Not connected. Used to make sure that the debug
J7-4
RESET#
RST#
Input
J7-5
PROG#
PRG#
Input
J7-6
5V0
VCC
PWR Input
module is connected correctly.
Module ground supply pin
Can be used by an external device to reset the
VNC2. This pin is also used in combination with
PROG# and the UART interface to program
firmware into the VNC2.
This pin is used in combination with the RESET#
pin and the UART interface to program firmware
into the VNC2.
5.0V module supply pin. This pin can be used to
provide the 5.0V input to the Vinco from the
debugger interface when the Vinco is not powered
from the USB connector (VBUs) or the CN1
Table 5.1 – Signal Name and Description – Debugger Interface
Note: # defines active low signals.
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6
ADC Converter
The Vinco module is fitted with a MCP3008, 8 channel analogue to digital converter (ADC) with SPI
output.
The analogue inputs are tracked out to the header pins such that an external signal may be applied for
the VNC2-64Q to read the values with its SPI master interface.
Alternatively the VNC2-64Q PWM interface may be used to provide waveforms for the ADC to convert and
the VNC2-64Q can read the digital output over SPI in a loopback arrangement.
Name
Pin No.
VNC264Q Pin
On PCB
Type
J2-1
43
AIN0
Input
J2-2
44
J2-3
45
J2-4
46
Description
MCP3008 analogue input channel 0 /
VNC2-64Q PWM0
MCP3008 analogue input channel 1 /
AIN1
Input
VNC2-64Q PWM1
MCP3008 analogue input channel 2 /
AIN2
Input
VNC2-64Q PWM2
AIN3
Input
MCP3008 analogue input channel 3 /
VNC2-64Q PWM3
J2-5
47
J2-6
48
AIN4
Input
MCP3008 analogue input channel 4 /
VNC2-64Q PWM4
AIN5
Input
MCP3008 analogue input channel 5 /
VNC2-64Q PWM5
J1-1
49
AIN6
Input
MCP3008 analogue input channel 6 /
VNC2-64Q PWM6
J1-2
50
AIN7
Input
MCP3008 analogue input channel 7 /
VNC2-64Q PWM7
Table 6.1 – ADC Interface
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7
Firmware
7.1 Firmware Support
The Vinco module is pre-loaded with the Vinco Manufacturing Test firmware which configures the VNC264Q USB port 1 to slave mode and enumerates the chip as an FT232BM device. The firmware also
configures VNC2-64Q ‘s GPIO Port A as LEDs (LED1, LED2 and LED3) outputs and allows the user to send
and receive data in a loopback mode. The LED1 blinks when data has been received and sent back and
the LED2 blinks when there is no data read from the USB port 1 (FT232BM device). The LED3 is ON when
the Vinco module is powered. The firmware C source code (Vinco Manufacturing Test Program/Firmware)
is available as a free download from the FTDI website. However the VNC2-64Q on the Vinco can be
programmed with the customers own firmware created using the Vinculum II firmware development toolchain or with various pre-compiled firmware profiles to allow a designer to easily change the functionality
of the chip. Please refer to: - FTDI website for full details on available pre-compiled firmware.
7.2 Available Firmware
Please refer to: - FTDI website for full details.
7.3 Firmware Upgrades
Refer to the debugger interface section 6 which can be used to update the firmware.
7.4 Arduino Shield Compatible Firmware
As the mechanical form factor and pin out is inspired by the Arduino Duemilanove module, many Arduino
shields are compatible with the Vinco module. Libraries and example applications will be made available
allowing the Vinco to be used in association with stepper motors, GSM modules, LCD displays and many
other applications. Additionally with the IDE it will be possible for users to develop new shields and
applications.
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8
Mechanical Dimensions
Figure 8.1 – Vinco Dimensions
Figure 8.2 – Vinco Pitch Measurements
±0.20mm Tolerance (except pitch)
Maximum height is 15mm
All dimensions are in mm
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Schematic Diagram
Figure 9.1 – Vinco Schematics
NOTE: Power protection is present for the USB Host connector through F1. If a target design based on
the Vinco is intended for USB-IF certification, then power control and over-current sensing will also be
required. Designs using the USB port(s) as slave will need VBUS detection as noted in AN_163,
Vinculum-II_USB_Slave_Detecting_Disconnect.
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10 Arduino Shields
The Vinculo module has the same form factor as the Arduino Duemilanove under the terms of the
Creative Commons Attribution Share-Alike license, which allows for both personal and commercial
derivative works.
This allows for other Arduino compatible shields to mate directly to the Vinculo PCB.
In addition to the existing shields on the market, a bare shield with a prototyping area, Vinco_Proto, is
also available to enable users to make their own shield. This shield includes connectors and an
assortment of resistors and LEDs to provide a starting point aimed at the hobbyist.
Figure 10.1 – Vinco_Proto
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11 Contact Information
Head Office – Glasgow, UK
Branch Office – Hillsboro, Oregon, USA
Future Technology Devices International Limited
Unit 1, 2 Seaward Place,
Centurion Business Park
Glasgow, G41 1HH
United Kingdom
Tel: +44 (0) 141 429 2777
Fax: +44 (0) 141 429 2758
7130 SW Fir Loop
Tigard, OR 97223
USA
Tel: +1 (503) 547 0988
Fax: +1 (503) 547 0987
E-mail (Sales)
[email protected]
E-mail (Support) [email protected]
E-mail (General Enquiries) [email protected]
Branch Office – Taipei, Taiwan
2F, No 516, Sec. 1 NeiHu Road
Taipei 114
Taiwan, R.O.C.
Tel: +886 (0) 2 8791 3570
Fax: +886 (0) 2 8791 3576
E-mail (Sales)
[email protected]
E-mail (Support) [email protected]
E-mail (General Enquiries) [email protected]
Web Site URL
E-Mail (Sales)
[email protected]
E-Mail (Support) [email protected]
E-Mail (General Enquiries) [email protected]
Branch Office – Shanghai, China
Room 408, 317 Xianxia Road,
ChangNing District,
ShangHai, China
Tel: +86 (21) 62351596
Fax: +86(21) 62351595
E-Mail (Sales):
[email protected]
E-Mail (Support): [email protected]
E-Mail (General Enquiries): [email protected]
Distributor and Sales Representatives
Please visit the Sales Network page of the FTDI Web site for the contact details of our distributor(s) and sales
representative(s) in your country. System and equipment manufacturers and designers are responsible to ensure that
their systems, and any Future Technology Devices International Ltd (FTDI) devices incorporated in their systems,
meet all applicable safety, regulatory and system-level performance requirements. All application-related information
in this document (including application descriptions, suggested FTDI devices and other materials) is provided for
reference only. While FTDI has taken care to assure it is accurate, this information is subject to customer confirmation,
and FTDI disclaims all liability for system designs and for any applications assistance provided by FTDI. Use of FTDI
devices in life support and/or safety applications is entirely at the user’s risk, and the user agrees to defend, indemnify
and hold harmless FTDI from any and all damages, claims, suits or expense resulting from such use. This document is
subject to change without notice. No freedom to use patents or other intellectual property rights is implied by the
publication of this document. Neither the whole nor any part of the information contained in, or the product described
in this document, may be adapted or reproduced in any material or electronic form without the prior written consent of
the copyright holder. Future Technology Devices International Ltd, Unit 1, 2 Seaward Place, Centurion Business Park,
Glasgow G41 1HH, United Kingdom. Scotland Registered Company Number: SC136640
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Appendix A – References
VNC2 Datasheet
Vinculum-II Errata Technical Note
Application and Technical Notes available at http://www.ftdichip.com/Support/Documents/AppNotes.htm
Vinculum-II IO Cell Description
Vinculum-II Debug Interface Description
Vinculum-II IO Mux Explained
Vinculum-II PWM Example
Migrating Vinculum Designs From VNC1L to VNC2-48L1A
Vinculum-II Toolchain Installation Guide
Vinculum-II Toolchain Getting Started Guide
Vinculum-II User Guide
MCP3008 Datasheet
(http://ww1.microchip.com/downloads/en/DeviceDoc/21295d.pdf)
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Appendix B – List of Figures and Tables
List of Figures
Figure 1.1 – VINCO ....................................................................................................................... 1
Figure 3.1 – Vinco Diagram ............................................................................................................ 4
Figure 8.1 – Vinco Dimensions ..................................................................................................... 15
Figure 8.2 – Vinco Pitch Measurements ......................................................................................... 15
Figure 9.1 – Vinco Schematics ...................................................................................................... 16
Figure 10.1 – Vinco_Proto ............................................................................................................ 17
List of Tables
Table 1.1 – Vinco Part Numbers...................................................................................................... 3
Table 3.1 – Vinco Connector Descriptions ........................................................................................ 4
Table 3.2 – Pin Signal Descriptions ................................................................................................. 6
Table 3.3 – USB Slave Pin Out ........................................................................................................ 7
Table 3.4 – USB Slave Pin Out ........................................................................................................ 7
Table 3.5 – Jumper Options ........................................................................................................... 8
Table 4.1 – Data and Control Bus Signal Mode Options – UART........................................................... 9
Table 4.2 – Data and Control Bus Signal Mode Options – SPI Slave ................................................... 10
Table 4.3 – Data and Control Bus Signal Mode Options – SPI Master ................................................. 10
Table 4.4 – Data and Control Bus Signal Mode Options – Parallel FIFO Interface ................................. 11
Table 5.1 – Signal Name and Description – Debugger Interface ........................................................ 12
Table 6.1 – ADC Interface ............................................................................................................ 13
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Appendix C – Revision History
Document Title:
Vinco Development Module
Document Reference No.:
FT_000327
Clearance No.:
FTDI#173.
Product Page:
http://www.ftdichip.com/Products/Modules/DevelopmentModules.htm
Document Feedback:
Send Feedback
Version 1.0
First Release
October 13th 2010
Version 1.1
Added images of Vinculo_Proto
October 20th 2010
Version 1.2
Changed text about software in introduction
October 28th 2010
Version 1.3
Added text about default/initial state of the Vinculo module
December 24th 2010
default/initial state of the Vinculo module
Updated the disclaimer.
Renamed the debugger module to VNC2 debugger/programming
module.
Section 1: Added text about debugger/programmer module
Section 1.3: Added part number VNCLO-START1
Updated table 3.1(Description), 4.1, 4.2, 4.3 and 4.4 (Available pins)
Version 1.4
Added part number VNCLO-PREM1
January 28th 2011
Version 1.5
Updated schematic and tables and corrected reference designator
March 18th 2011
Added a simplified dimentions drawing
Version 2.0
Updated product name to Vinco
April 11th 2011
Updated table formatting
Added LED1, LED2 and PWREN# GPIO locations with respect to VNC2 pins
Version 2.01
Corrected Figure 3.1 pin 1 location on J3 to J6
Dec 14th 2012
Note added under figure 9.1 on power control
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