UMFT231XE
Version 1.0
Document Reference No.: FT_000652
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Future Technology
Devices
International Ltd
Datasheet
UMFT231XE USB to FullHandshake UART
Development Module
UMFT231XE is a USB to serial Full-Handshake UART DIP module with a 0.6” row pitch.
1
Introduction
The UMFT231XE is a development module
for FTDI‟s FT231XQ, one of the devices
from FTDI‟s range of USB interface bridging
integrated circuit devices. FT231X is a USB
to UART interface with a battery charger
detection feature, which can allow batteries
to be charged with a higher current from a
dedicated charger port (without the
FT231X being enumerated). In addition,
asynchronous and synchronous bit bang
interface modes are available. The
internally generated clock (6MHz, 12MHz
and 24MHz) can be brought out of the on
one of the CBUS pin to be used to drive a
microprocessor or external logic.
The UMFT231XE is a module which is
designed to plug into a standard 0.6” wide
20 pin DIP socket. All components used,
including the FT231XQ are Pb-free (RoHS
compliant).
1.1 Features
The UMFT231XE is fitted with a FT231XQ,
all the features of the FT231X can be
utilized with the UMFT231XE. For a full list
of the FT231X‟s features please see the
FT231X datasheet which can be found by
clicking here.
In addition to the features listed in the
FT231X datasheet, the UMFT231XE has the
following features:
Small PCB assembly module designed to
fit a standard 15.24mm (0.6”) wide 20
pin DIP socket. Pins are on a 2.54mm
(0.1”) pitch.
On board USB „mini-B‟ socket allows
module to be connected to a PC via a
standard A to mini-B USB cable.
Functionally configurable using jumpers.
The default jumper setup enables the
module to function without peripheral
wires or application board. Other
configurations enable external power
supply options and variation of logic
reference levels.
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.
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Table of Contents
1
Introduction ................................................................................... 1
1.1
Features ........................................................................................................ 1
2
Driver Support ................................................................................ 3
3
Ordering Information ..................................................................... 3
4
UMFT231XE Signals and Configurations ......................................... 4
5
4.1
UMFT231XE Pin Out ...................................................................................... 4
4.2
Signal Descriptions ....................................................................................... 5
4.3
CBUS Signal Options ..................................................................................... 6
Module Configurations .................................................................... 7
5.1
Jumper Configuration Options ....................................................................... 7
5.2
Bus Powered Configuration ........................................................................... 8
5.3
Self Powered Configuration ........................................................................... 9
5.4
USB Bus Powered with Power Switching Configuration .............................. 10
5.5
Variable IO Voltage Supply ......................................................................... 11
5.6
3.3V Voltage Supply .................................................................................... 12
5.7
Configuring the MTP ROM............................................................................ 12
6
Module Dimensions ...................................................................... 13
7
UMFT231XE Module Circuit Schematic .......................................... 14
8
Internal MTP ROM Configuration .................................................. 15
9
Contact Information ..................................................................... 16
Appendix A - List of Figures and Tables ................................................................. 17
Appendix B – Revision History .............................................................................. 18
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Driver Support
Royalty-Free VIRTUAL COM PORT (VCP)
DRIVERS for:
Royalty-Free D2XX Direct Drivers (USB Drivers +
DLL S/W Interface):
Windows 7 32,64-bit
Windows 7 32,64-bit
Windows Vista
Windows Vista
Windows XP 32,64-bit
Windows XP 32,64-bit
Windows XP Embedded
Windows XP Embedded
Windows CE.NET 4.2 , 5.0 and 6.0
Windows CE.NET 4.2, 5.0 and 6.0
MAC OS OS-X
MAC OS OS-X
Linux 3.0 and greater
Linux 3.0 and greater
Android
Android
The drivers listed above are all available to download for free from www.ftdichip.com. Various 3rd Party
Drivers are also available for various other operating systems - visit www.ftdichip.com for details.
3
Ordering Information
Module Code
Utilised IC Code
Description
UMFT201XE-01
FT201XQ
USB to I2C evaluation module. 0.6” row pitch, standard DIP
headers.
UMFT221XE-01
FT221XQ
USB to 8-bit SPI/FT1248 evaluation module. 0.6” row pitch,
standard DIP headers.
UMFT231XE-01
FT231XQ
USB to Full-Handshake UART evaluation module. 0.6” row
pitch, standard DIP headers.
UMFT240XE-01
FT240XQ
USB to 8-bit 245 FIFO evaluation module. 0.6” row pitch,
standard DIP headers.
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UMFT231XE Signals and Configurations
4.1 UMFT231XE Pin Out
GND – J1-1
J2-1 – SLD
3V3OUT
VBUS
VCC
VCCIO
RI#
DCD#
GND
DSR#
RESET#
DTR#
CBUS3
CTS#
CBUS2
RTS#
CBUS1
RXD
TXD – J1-10
J2-10 – CBUS0
Figure 4.1 – Module Pin Out
Figure 4.1 illustrates the signals available on the DIP pins.
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4.2 Signal Descriptions
Pin No.
Name
Type
Description
J1-1,
J2-5
GND
PWR
Module Ground Supply Pins
J1-2
3V3OUT
Power
Input/
Output
3.3V output from integrated L.D.O. regulator. This pin is decoupled with a 100nF
capacitor to ground on the PCB module. The prime purpose of this pin is to provide
the 3.3V supply that can be used internally. For power supply configuration details
see Section 5.
J1-3
VCCIO
Power
Input
+1.8V to +3.3V supply to the UART Interface and CBUS I/O pins. For power supply
configuration details see Section 5.
J1-4
DCD#
Input
Data Carrier Detect Control Input.
J1-5
DSR#
Input
Data Set Ready Control Input / Handshake Signal.
J1-6
DTR#
Output
Data Terminal Ready Control Output / Handshake Signal.
J1-7
CTS#
Input
Clear To Send Control Input / Handshake Signal.
J1-8
RTS#
Output
Request to Send Control Output / Handshake Signal.
J1-9
RXD
Input
Receiving Asynchronous Data Input.
J1-10
TXD
Output
Transmit Asynchronous Data Output.
J2-1
SLD
GND
USB Cable Shield. Connected to GND via a 0ohm resistor.
J2-2
VBUS
Power
Output
5V Power output from the USB bus. For a low power USB bus powered design, up to
100mA can be sourced from the 5V supply and applied to the USB bus. A maximum
of 500mA can be sourced from the USB bus in a high power USB bus powered design.
Currents up to 1A can be sourced from a dedicated charger and applied to the USB
bus.
J2-3
VCC
Power
Input
5V power input for FT231X. For power supply configuration details see Section 5.
J2-4
RI#
Input
Ring Indicator Control Input. When remote wake up is enabled in the internal MTP
ROM taking RI# low >20ms can be used to resume the PC USB host controller from
suspend.
J2-6
RESET#
Input
FT231X active low reset line. Configured with an on board pull-up and recommended
filter capacitor. When no power is applied to the USB bus reset, will be held low, this
prevents current from flowing to the host or hub when in self-powered mode.
J2-7
CBUS3
I/O
Configurable CBUS I/O Pin. Function of this pin is configured in the device internal
MTP ROM. See CBUS Signal Options, Table 4.2.
J2-8
CBUS2
I/O
Configurable CBUS I/O Pin. Function of this pin is configured in the device internal
MTP ROM. See CBUS Signal Options,Table 4.2.
J2-9
CBUS1
I/O
Configurable CBUS I/O Pin. Function of this pin is configured in the device internal
MTP ROM. See CBUS Signal Options, Table 4.2.
Configurable CBUS I/O Pin. Function of this pin is configured in the device internal
MTP ROM. See CBUS Signal Options,Table 4.2.
Table 4.1 – Module Pin Out Description
J2-10
CBUS0
I/O
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4.3 CBUS Signal Options
The following options can be configured on the CBUS I/O pins. These options are all configured in the
internal MTP ROM using the utility software FT_PROG, which can be downloaded from the
www.ftdichip.com. The default configuration is described in Section 9.
CBUS Signal
Option
Available On
CBUS Pin
Tristate
CBUS0-CBUS3
IO Pad is tri-stated
DRIVE_1
CBUS0-CBUS3
Output a constant 1
DRIVE_0
CBUS0-CBUS3
Output a constant 0
TXDEN
CBUS0-CBUS3
Enable transmit data for RS485
PWREN#
CBUS0-CBUS3
Output is low after the device has been configured by USB, then high during
USB suspend mode. This output can be used to control power to external logic
P-Channel logic level MOSFET switch.
NOTE: This function is driven by an open-drain to ground with no internal pullup, this is specially designed to aid battery charging applications. UMFT231XE
connects all CBUS and DBUS signals an on-board 47K pull-up.
TXLED#
CBUS0-CBUS3
Transmit data LED drive – open drain pulses low when transmitting data via
USB.
RXLED#
CBUS0-CBUS3
Receive data LED drive – open drain pulses low when receiving data via USB.
TX&RXLED#
CBUS0-CBUS3
LED drive – open drain pulses low when transmitting or receiving data via USB.
SLEEP#
CBUS0-CBUS3
Goes low during USB suspend mode. Typically used to power down an external
logic to RS232 level converter IC in USB to RS232 converter designs. Cancel
SLEEP# option for when connected to a dedicated charger port, this can be
selected when configuring the MTP ROM. When this option is enabled SLEEP# is
driven high when FT231X is connected to a Dedicated Charger Port.
CLK24MHz
CBUS0-CBUS3
24 MHz Clock output.**
CLK12MHz
CBUS0-CBUS3
12 MHz Clock output.**
CLK6MHz
CBUS0-CBUS3
6 MHz Clock output.**
GPIO
CBUS0-CBUS3
CBUS bit bang mode option. Allows up to 4 of the CBUS pins to be used as
general purpose I/O. Configured individually for CBUS0, CBUS1, CBUS2 and
CBUS3 in the internal MTP ROM. A separate application note, AN232R-01,
available from FTDI website (www.ftdichip.com) describes in more detail how to
use CBUS bit bang mode.
BCD_Charger
CBUS0-CBUS3
Battery Charge Detect indicates when the device is connected to a dedicated
battery charger host. Active high output. NOTE: Requires a 10K pull-down to
remove power up toggling.
BCD_Charger#
CBUS0-CBUS3
Active low BCD Charger, driven by an open drain to ground with no internal
pull-up (4.7K on board pull-up present).
BitBang_WR#
CBUS0-CBUS3
Synchronous and asynchronous bit bang mode WR# strobe output.
BitBang_RD#
CBUS0-CBUS3
Synchronous and asynchronous bit bang mode RD# strobe output.
VBUS_Sense
CBUS0-CBUS3
Input to detect when VBUS is present.
Time_Stamp
CBUS0-CBUS3
Toggle signal which changes state each time a USB SOF is received
Keep_Awake#
CBUS0-CBUS3
Table 4.2 – CBUS Signal Options
Description
Active Low input, prevents the chip from going into suspend.
**When in USB suspend mode the outputs clocks are also suspended.
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Module Configurations
5.1 Jumper Configuration Options
Jumper No.
Setting
Status
Description
JP1
Shorted
Default
Connects internal 3.3V regulator to VCCIO. This restricts signal drive to only 3.3V
level signals.
Disconnects internal 3.3V regulator connection to VCCIO. This mode allows for the
supply of 1.8V-3.3V power from an external power supply, thus allows the
JP1
Opened
processing of signals with logic levels between 1.8V and 3.3V. VCCIO can be
adjusted to match the interface requirements of external circuitry.
Table 5.1 – Jumper JP1 Pin Description
NonDefault
Jumper No.
Setting
Status
Description
JP2
Shorted
Default
Connects VBUS to VCC. This mode is known as “USB-Powered” mode.
NonDisconnects VBUS to VCC. This allows the supply of power from an external power
Default
supply. This mode is known as “Self-Powered” mode.
Table 5.2 – Jumper JP2 Pin Description
JP2
Opened
Note: There should never be more than one power output supplied to the same net. If JP2 is fitted when
an external power supply is applied a direct short between two power supplies will be formed, this can
result in damage to the UMFT231XE module and the target circuit.
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5.2 Bus Powered Configuration
GND
Alternative
connection
VCCIO
VCC
3V3OUT
VBUS
Alternative
connection
Current Flow
GND
Self-Sourced
3V3 TTL Mode
Jumper JP1 - Closed
Bus Powered
Mode
Jumper JP2- Closed
Figure 5.1 – Bus Powered Configuration
A bus powered configuration draws its power from the USB host/hub. The UMFT231XE is configured by
default to be in bus powered mode.
Figure 5.1 illustrates the UMFT231XE module in a typical USB bus powered design configuration. By
default VCCIO is connected to 3V3OUT, and VCC is connected to VBUS.
For a bus power configuration power is supplied from the USB VBUS:
+5V VBUS power is sourced from the USB bus and is connected to the FT231X power input (VCC)
+3.3V power is sourced from the FT231X‟s voltage regulator output and is connected to the FT231X IO
port‟s power input (VCCIO).
Interfacing the UMFT231XE module to a microcontroller (MCU), or other logic devices for bus powered
configuration is done the same way as a self-powered configuration (see Section 3), except it is possible
for the MCU or external device to take its power supply from the USB bus (either the 5V from the USB
pin, or 3.3V from the 3V3OUT pin).
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5.3 Self Powered Configuration
Vcc = 1.8V – 3.3V
Vcc = 5V
TXD
VIO
RXD
TXD
RTS#
RXD
CTS#
RTS#
CTS#
GND
MCU
VCCIO
VCC
3V3OUT
VBUS
GND
Variable TTL
Mode
Jumper JP1 - Open
Self Power
Mode
Jumper JP2- Open
Figure 5.2 – Self-Powered Configuration
A self-powered configuration operates on the principle of drawing power from an external power supply,
as oppose to drawing power from the USB host. In this configuration no current is drawn from the USB
bus.
Figure 5.2 illustrates the UMFT231XE in a typical USB self-powered configuration. In this case the jumper
connection of JP1 is removed, which allows 5V power to be supplied to the module VCC pins from an
external source. VCCIO can to be powered from 3V3OUT or the VCC of an external source.
For a self-powered configuration, it is necessary to prevent current from flowing back to the USB data
lines when the connected USB host or hub has powered down. To carry out this function the UMFT231XE
uses an on-board voltage divider network connected to the USB bus and RESET# pin. This operates on
the principle that when no power is supplied to the VBUS line, the FT231X will automatically be held in
reset by a weak pull-down, when power is applied the voltage divider will apply a weak 3.3V pull-up.
Driving a level to the RESET# pin of the UMFT231XE will override the effect of this voltage divider. When
the FT231X is in reset the USB DP signal pull-up resistor connected to the data lines is disconnected and
no current can flow down the USB lines.
An example of interfacing the FT231X with a Microcontroller‟s UART interface is also illustrated in Figure
5.2. This example shows the wire configuration of the transfer and handshake lines. This example also
illustrates that a voltage other than 3.3V can be supplied to the FT231X‟s IO port, this feature is
described further and for bus powered mode in Section 5.5.
Alternatively, both the FT231X‟s IO port and MCU can be powered from the 3V3OUT pin; this approach is
described in Section 5.4.
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5.4 USB Bus Powered with Power Switching Configuration
5V
P-Channel Power
MOSFET
s
d
TXD
VCC
RXD
0.1uF
10K
TXD
RTS#
RXD
CTS#
Soft
Start
Circuit
CBUSx
PWREN#
RTS#
0.1uF
g
1K
CTS#
GND
MCU
VCCIO
VCC
3V3OUT
VBUS
GND
Self-Sorced
3.3V TTL Mode
Jumper JP1 - Closed
Bus Powered
Mode
Jumper JP2 - Closed
Figure 5.3 – Bus Powered with Power Switching Configuration
USB bus powered mode is introduced in Section 5.2. This section describes how to use bus-powered
mode with a power switch.
USB bus powered circuits are required by USB compliance standards to consume less than 2.5mA (and
less than 100mA when not enumerated and not suspended) when connected to a host or hub when in
USB suspend mode. The PWREN# CBUS function can be used to remove power from external circuitry
whenever the FT231X is not enumerated.
To implement a power switch using PWREN#, configure a P-Channel Power MOSFET to have a soft start
by fitting a 10K pull-up, a 1K series resistor and a 100nF cap as shown in Figure 5.3.
Connecting the source of the P-Channel MOSFET to 3V3OUT instead of VBUS can allow external logic to
source 3.3V power from the FT231X without breaking USB compliancy. In this setup it is important that
the VCCIO is not sourced from the drain of this MOSFET, this is because the power used to drive the gate
of this transistor is sourced from VCCIO. VCCIO should be connected directly to 3V3OUT for this setup to
function effectively. It is also important that the external logic must and IO core of the FT231X must not
draw more that 50mA, this is because the current limit of the internal 3.3V regulator is 50mA.
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5.5 Variable IO Voltage Supply
Vcc = 1.8V – 3.3V
TXD
RXD
TXD
RTS#
RXD
CTS#
RTS#
CTS#
GND
MCU
VCCIO
VCC
3V3OUT
VBUS
GND
Jumper JP1 - Open
Jumper JP2 - Closed
Figure 5.4 – USB Bus Powered 3.3V Logic Drive
The FT231X can process signals at CMOS/TTL logic levels in the range of 1.8V to 3.3V. This section
describes how to utilise this feature.
Figure 5.4 shows a configuration where the FT231X is interfaced to a device with IOs operating in the
range of 1.8V - 3.3V. The IO ports of this module need to be powered with a voltage level that is equal to
the level of the signals it is processing. Since the FT231X‟s embedded voltage regulator only outputs 3V3
the IO ports will need to be powered from another power source when operating at voltage levels other
than 3.3V.
By default, a short is present between 3V3OUT (embedded voltage regulator) and VCCIO (IO port‟s
power input with the connection made by JP1. If an external power supply is used to power the IO ports
this jumper needs to be open.
The configuration described in this section can be implemented in either bus-powered mode or selfpowered mode.
Note 1: The CBUS and DBUS pins are 5V tolerant; however these signals cannot drive signals at 5V
TTL/CMOS. VCCIO is not 5V tolerant; applying 5V to VCCIO will damage the chip.
Note 2: If power is applied to VCCIO and no power is applied to VCC all IOs will be at an unknown state,
this however will not damage the chip. The FT231X also has protective circuitry to prevent the chip being
damaged by a voltage discrepancy between VCCIO and the level of the signal being processed.
Note 3: When using VCCIO less than 3V3 on a chip from FTDI‟s X-chip range, it is recommended to use
pull up resistors (47K) to VCCIO on the data lines, all of the UMFT2xxXE devices include an on-board
pull-up for these lines.
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5.6 3.3V Voltage Supply
Vcc = 3.3V
Vcc = 3.3V
TXD
RXD
TXD
RTS#
RXD
CTS#
RTS#
CTS#
GND
MCU
VCCIO
VCC
3V3OUT
VBUS
GND
Jumper JP1 - Closed
Jumper JP2 - Open
Figure 5.5 – USB Self Powered 3.3V Logic Drive
The FT231X can be powered from a single 3.3V supply. This feature is an alternative to having the
FT231X powered at 5V in standard self-powered configuration.
The 3.3V Self Powered configuration is illustrated in Figure 5.5. Note that the 3.3V input is connected to
VCC, VCCIO and 3V3OUT.
5.7 Configuring the MTP ROM
The FT231X contains an embedded MTP ROM. This can be used to configure the functions of each CBUS
pin, the current drive on each signal pin, current limit for the USB bus and the other descriptors of the
device. For details on using the MTP ROM/EEPROM programming utility FT_PROG, please see the
FT_PROG User Guide.
When programming the MTP ROM please note:
i) One of the CBUS Pins can be configured as PWREN# in the internal MTP ROM. This can be used to
switch the power supply to the external circuitry.
ii) The Max Bus Power setting of the MTP ROM should specify the maximum current to be drawn from
the USB host/hub when enumerated. For high-powered USB devices the current limit when
enumerated is between 100mA and 500mA, for low-powered USB devices the current limit is
100mA.
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Module Dimensions
2.54
32.5
15.24
19.2
9.63
2.0
7.36
34.5
5.8
1.6
9.2
Figure 6.1 – UMFT231XE Module Dimensions
All dimensions are given in millimetres.
The UMFT231XE module exclusively uses lead free components, and is fully compliant with European
Union directive 2002/95/EC.
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UMFT231XE Module Circuit Schematic
Figure 7.1 – Module Circuit Schematic
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Internal MTP ROM Configuration
Following a power-on reset or a USB reset the FT231X will scan its internal MTP ROM and read the USB
configuration descriptors stored there. The default values programmed into the internal MTP ROM in the
FT231XQ used on the UMFT231XE are shown in Table 8.1.
Parameter
Value
Notes
USB Vendor ID (VID)
0403h
FTDI default VID (hex)
USB Product UD (PID)
6015h
FTDI default PID (hex)
Serial Number Enabled?
Yes
Serial Number
See Note
A unique serial number is generated and programmed into
the MTP ROM during final test of the UM232R module.
Pull down I/O Pins in USB
Suspend
Disabled
Enabling this option will make the device pull down on the
UART interface lines when the power is shut off (PWREN#
is high).
Manufacturer Name
FTDI
Product Description
UMFT231XE
Max Bus Power Current
Power Source
90mA
Bus Powered
Device Type
FT231X
USB Version
0200
Returns USB 2.0 device description to the host. Note: The
device is a USB 2.0 Full Speed device (12Mb/s) as opposed
to a USB 2.0 High Speed device (480Mb/s).
Remote Wake Up
Enabled
Taking RI# low will wake up the USB host controller from
suspend.
High Current I/Os
Disabled
Enables the high drive level on the UART and CBUS I/O
pins.
Load VCP Driver
Enabled
Makes the device load the CVP driver interface for the
device.
CBUS0
GPIO
CBUS1
GPIO
CBUS2
GPIO
CBUS3
GPIO
Invert UART
Disabled
Signal on this pin becomes TXD# if enable.
Table 8.1 – Default Internal MTP ROM Configuration
The internal MTP ROM in the FT231X can be programmed over USB using the utility program FT_PROG.
FT_PROG can be downloaded from the www.ftdichip.com. Users who do not have their own USB vendor
ID but who would like to use a unique Product ID in their design can apply to FTDI for a free block of
unique PIDs. Contact FTDI Support (support1@ftdichip.com) for this service, also see TN_100 and
TN_101.
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Contact Information
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Branch Office – Hillsboro, Oregon, USA
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Fax: +1 (503) 547 0987
E-mail (Sales)
E-mail (Support)
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E-Mail (Sales)
E-Mail (Support)
E-Mail (General Enquiries)
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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
16
Copyright © 2012 Future Technology Devices International Limited
UMFT231XE
Version 1.0
Document Reference No.: FT_000652
Clearance No.: FTDI#
Appendix A - List of Figures and Tables
List of Figures
Figure 4.1 – Module Pin Out ........................................................................................................................... 4
Figure 5.1 – Bus Powered Configuration ...................................................................................................... 8
Figure 5.2 – Self-Powered Configuration ...................................................................................................... 9
Figure 5.3 – Bus Powered with Power Switching Configuration .............................................................. 10
Figure 5.4 – USB Bus Powered 3.3V Logic Drive ....................................................................................... 11
Figure 5.5 – USB Self Powered 3.3V Logic Drive ....................................................................................... 12
Figure 6.1 – UMFT231XE Module Dimensions ............................................................................................ 13
Figure 7.1 – Module Circuit Schematic ........................................................................................................ 14
List of Tables
Table 4.1 – Module Pin Out Description ........................................................................................................ 5
Table 4.2 – CBUS Signal Options ................................................................................................................... 6
Table 5.1 – Jumper JP1 Pin Description ....................................................................................................... 7
Table 5.2 – Jumper JP2 Pin Description ....................................................................................................... 7
Table 8.1 – Default Internal MTP ROM Configuration ................................................................................ 15
Copyright © 2011 Future Technology Devices International Limited
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UMFT231XE
Version 1.0
Document Reference No.: FT_000652
Clearance No.: FTDI#
Appendix B – Revision History
Document Title:
UMFT231XE
Document Reference No.:
FT_000652
Clearance No.:
FTDI# 294
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Version 1.0
Initial Datasheet Created
Copyright © 2011 Future Technology Devices International Limited
12/06/12
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