FT221X Data Sheet

FT221X USB 8-BIT SPI/FT1248 IC Datasheet
Version 1.3
Document No.: FT_000630 Clearance No.: FTDI# 263
Future Technology Devices
International Ltd.
FT221X
(USB 8-Bit SPI/FT1248 IC)
The FT221X is a USB to FTDI’s
proprietary FT1248 interface with the
following advanced features:

USB Battery Charger Detection. Allows for USB
peripheral devices to detect the presence of a
higher power source to enable improved
charging.

Single chip USB to 1, 2, 4, or 8 bit wide
synchronous interface.

Device supplied pre-programmed with unique
USB serial number.

Similar to an SPI Slave with variable bus width.


Entire USB protocol handled on the chip. No
USB specific firmware programming required.
USB Power Configurations; supports buspowered, self-powered and bus-powered with
power switching.

Fully
integrated
2048
byte
multi-timeprogrammable (MTP) memory, storing device
descriptors and CBUS I/O configuration.

Integrated +3.3V level converter for USB I/O.


Fully integrated clock generation with no
external crystal required plus optional clock
output selection enabling a glue-less interface
to external MCU or FPGA.
True 3.3V CMOS drive output and TTL input;
operates down to 1V8 with external pull-ups.
Tolerant of 5V inputs.

Configurable I/O pin output drive strength; 4
mA(min) and 16 mA(max)

Integrated power-on-reset circuit.

Fully integrated AVCC supply filtering - no
external filtering required.

+ 5V Single Supply Operation.

Internal 3V3/1V8 LDO regulators

Low operating and USB suspend current; 8mA
(active-typ) and 125uA (suspend-typ).

Low USB bandwidth consumption.

UHCI/OHCI/EHCI host controller compatible.

USB 2.0 Full Speed capable.

Extended operating temperature range; -40 to
85⁰C.

Available in compact Pb-free 20 Pin SSOP and
QFN packages (both RoHS compliant).

Data transfer rates to 1MByte/s.

512 byte receive buffer and 512 byte transmit
buffer utilising buffer smoothing technology to
allow for high data throughput.


FTDI’s royalty-free Virtual Com Port (VCP) and
Direct
(D2XX)
drivers
eliminate
the
requirement for USB driver development in
most cases.
Configurable CBUS I/O pin.
Neither the whole nor any part of the information contained in, or the product described in this manual, may be adapted or reproduced
in any material or electronic form without the prior written consent of the copyright holder. This product and its documentation are
supplied on an as-is basis and no warranty as to their suitability for any particular purpose is either made or implied. Future Technology
Devices International Ltd will not accept any claim for damages howsoever arising as a result of use or failure of this product. Your
statutory rights are not affected. This product or any variant of it is not intended for use in any medical appliance, device or system in
which the failure of the product might reasonably be expected to result in personal injury. This document provides preliminary
information that may be subject to change without notice. No freedom to use patents or other intellectual property rights is implied by
the publication of this document. Future Technology Devices International Ltd, Unit 1, 2 Seaward Place, Centurion Business Park, Glasgow
G41 1HH United Kingdom. Scotland Registered Company Number: SC136640
Copyright © 2013 Future Technology Devices International Limited
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
Version 1.3
Document No.: FT_000630 Clearance No.: FTDI# 263
1
Typical Applications

USB to SPI slave interface in 1-bit mode

USB Industrial Control

Upgrading Legacy Peripherals to USB

USB MP3 Player Interface

Utilising USB to add system modularity

USB FLASH Card Reader and Writers

Incorporate USB interface to enable PC
transfers for development system
communication

Set Top Box PC - USB interface

USB Digital Camera Interface

Dedicated Charging Port detection for enabling
higher current battery charging.

Interfacing MCU/PLD/FPGA based designs to
add USB connectivity
1.1 Driver Support
Royalty free VIRTUAL COM PORT
(VCP) DRIVERS for...
Royalty free D2XX Direct Drivers
(USB Drivers + DLL S/W Interface)

Windows 8 32,64-bit

Windows 8 32,64-bit

Windows 7 32,64-bit

Windows 7 32,64-bit

Windows Vista and Vista 64-bit

Windows Vista and Vista 64-bit

Windows XP and XP 64-bit

Windows XP and XP 64-bit

Server 2003, XP and Server 2008

Server 2003, XP and Server 2008

Windows XP Embedded

Windows XP Embedded

Windows CE 4.2, 5.0 and 6.0

Windows CE 4.2, 5.0 and 6.0

Mac OS-X

Mac OS-X

Linux 3.2 and greater

Linux 2.6 and greater

Android

Android
The drivers listed above are all available to download for free from FTDI website (www.ftdichip.com).
Various 3rd party drivers are also available for other operating systems - see FTDI website
(www.ftdichip.com) for details.
For driver installation, please refer to http://www.ftdichip.com/Documents/InstallGuides.htm
1.2 Part Numbers
Part Number
Package
FT221XQ-x
20 Pin QFN
FT221XS-x
20 Pin SSOP
Note: Packing codes for x is:
- R: Taped and Reel, (SSOP is 3,000pcs per reel, QFN is 5,000pcs per reel).
- U: Tube packing, 58pcs per tube (SSOP only)
- T: Tray packing, 490pcs per tray (QFN only)
For example: FT221XQ-R is 5,000pcs taped and reel packing
Copyright © 2013 Future Technology Devices International Limited
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
Version 1.3
Document No.: FT_000630 Clearance No.: FTDI# 263
1.3 USB Compliant
The FT221X is fully compliant with the USB 2.0 specification and has been given the USB-IF Test-ID (TID)
40001462 (Rev D).
Copyright © 2013 Future Technology Devices International Limited
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
Version 1.3
Document No.: FT_000630 Clearance No.: FTDI# 263
2
FT221X Block Diagram
VCC
1V8 Internal
Core Supply
3V3OUT
USBDP
USBDM
3.3 Volt LDO
Regulator
USB
Transceiver
with
Integrated
1.5k pullups
and battery
charge
detection
1.8 Volt LDO
Regulator
FIFO RX Buffer
(512 bytes)
Serial Interface
Engine
(SIE)
VCCIO
USB
Protocol Engine
FT1248
Controller
MIOSI[0]
MIOSI[1]
MIOSI[2]
MIOSI[3]
MIOSI[4]
MIOSI[5]
MIOSI[6]
MISOI[7]
CLK
CS#
MISO
CBUS3
Internal MTP
Memory
USB DPLL
FIFO TX Buffer
(512 bytes)
Internal
12MHz
Oscillator
3V3OUT
RESET#
X4 Clock
Multiplier
Reset
Generator
48MHz
To USB Transceiver Cell
GND
Figure 2.1 FT221X Block Diagram
For a description of each function please refer to Section 4.
Copyright © 2013 Future Technology Devices International Limited
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
Version 1.3
Document No.: FT_000630 Clearance No.: FTDI# 263
Table of Contents
1
Typical Applications ...................................................................... 2
1.1
Driver Support .................................................................................... 2
1.2
Part Numbers...................................................................................... 2
1.3
USB Compliant .................................................................................... 3
2
FT221X Block Diagram ................................................................. 4
3
Device Pin Out and Signal Description .......................................... 7
3.1
20-LD QFN Package ........................................................................... 7
3.1.1
3.2
20-LD SSOP Package.......................................................................... 9
3.2.1
3.3
4
SSOP Package PinOut Description .................................................................................. 9
CBUS Signal Options ......................................................................... 11
Function Description................................................................... 12
4.1
Key Features ..................................................................................... 12
4.2
Functional Block Descriptions ........................................................... 12
5
FT1248 Interface Description. .................................................... 14
5.1
Determining the Dynamic Bus Width ................................................ 14
5.2
Supported Commands on the FT1248 Interface ................................ 15
5.3
LSB or MSB Selection ........................................................................ 16
5.4
Clock Phase/Polarity ........................................................................ 16
5.4.1
5.5
6
CPHA = 1 ................................................................................................................. 17
FT1248 Timing .................................................................................. 18
Devices Characteristics and Ratings ........................................... 20
6.1
Absolute Maximum Ratings............................................................... 20
6.2
ESD and Latch-up Specifications ....................................................... 20
6.3
DC Characteristics............................................................................. 21
6.4
MTP Memory Reliability Characteristics ............................................ 25
6.5
Internal Clock Characteristics ........................................................... 25
7
USB Power Configurations .......................................................... 26
7.1
USB Bus Powered Configuration ...................................................... 26
7.2
Self Powered Configuration .............................................................. 27
7.3
USB Bus Powered with Power Switching Configuration .................... 28
7.4
USB Battery Charging Detection ....................................................... 29
8
Application Examples ................................................................. 30
8.1
9
QFN Package PinOut Description .................................................................................... 7
USB to FT1248 Converter .................................................................. 30
Internal MTP Memory Configuration ........................................... 33
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
Version 1.3
Document No.: FT_000630 Clearance No.: FTDI# 263
9.1
Default Values .................................................................................. 33
9.2
Method of Programming the MTP Memory ........................................ 34
9.2.1
Programming the MTP memory over USB ...................................................................... 34
9.3
Memory Map ..................................................................................... 34
9.4
Hardware Requirements ................................................................... 35
10
Package Parameters ................................................................... 36
10.1
SSOP-20 Package Mechanical Dimensions ..................................... 36
10.2
SSOP-20 Package Markings............................................................ 37
10.3
QFN-20 Package Mechanical Dimensions ....................................... 38
10.4
QFN-20 Package Markings ............................................................. 39
10.5
Solder Reflow Profile ..................................................................... 40
11
Contact Information ................................................................... 41
Appendix A – References ........................................................................... 42
Appendix B - List of Figures and Tables ..................................................... 43
Appendix C - Revision History .................................................................... 45
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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3
Device Pin Out and Signal Description
9
8
USBDM
USBDP
20
RESET#
MIOSI0
MIOSI1
MIOSI2
MIOSI3
MIOSI4
MIOSI5
MIOSI6
MIOSI7
CLK
CS#
MISO
CBUS3
17
1
19
6
18
4
5
2
15
14
7
16
3
13
21
GND
GND
GND
11
3V3OUT
VCCIO
10
VCC
12
3.1 20-LD QFN Package
Figure 3.1 QFN Schematic Symbol
3.1.1 QFN Package PinOut Description
Note : # denotes an active low signal.
Pin No.
Name
Type
**
POWER
Input
12
20
10
3, 13
VCC
VCCIO
**
3V3OUT
GND
POWER
Input
Description
5 V (or 3V3) supply to IC
1V8 - 3V3 supply for the IO cells
3V3 output at 50mA. May be used to power VCCIO.
POWER
Output
POWER
Input
When VCC is 3V3; pin 10 is an input pin and should be
connected to pin 12
0V Ground input.
Table 3.1 Power and Ground
*Pin 21 is the centre pad under the IC. Connect to GND.
** If VCC is 3V3 then 3V3OUT must also be driven with 3V3 input
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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Document No.: FT_000630 Clearance No.: FTDI# 263
Pin No.
Name
Type
Description
9
USBDM
INPUT
USB Data Signal Minus.
8
USBDP
INPUT
USB Data Signal Plus.
11
RESET#
INPUT
Reset input (active low).
Table 3.2 Common Function pins
Pin No.
Name
Type
Description
17
MIOSI[0]
I/O
Bi-Directional data bit 0
1
MIOSI[1]
I/O
Bi-Directional data bit 1
19
MIOSI[2]
I/O
Bi-Directional data bit 2
6
MIOSI[3]
I/O
Bi-Directional data bit 3
18
MIOSI[4]
I/O
Bi-Directional data bit 4
4
MIOSI[5]
I/O
Bi-Directional data bit 5
5
MIOSI[6]
I/O
Bi-Directional data bit 6
2
MIOSI[7]
I/O
15
CLK
Input
Clock input from FT1248 interface master
14
CS#
Input
Chip select input to enable the device interface. Active low logic.
7
MISO
Output
16
CBUS3
I/O
Bi-Directional data bit 7
Master In Serial Out. Used to provide status information to the FT1248
interface master.
Configurable CBUS I/O Pin. Function of this pin is configured in the
device MTP memory. See CBUS Signal Options, Table 3.7.
Table 3.3 FT1248 Interface and CBUS Group (see note 1)
Notes:
1. When used in Input Mode, the input pins are pulled to VCCIO via internal 75kΩ (approx) resistors.
These pins can be programmed to gently pull low during USB suspend (PWREN# = “1”) by setting an
option in the MTP memory.
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
Version 1.3
Document No.: FT_000630 Clearance No.: FTDI# 263
3V3OUT
12
11
3
VCCIO
13
VCC
15
3.2 20-LD SSOP Package
MIOSI0
MIOSI1
MIOSI2
MIOSI3
MIOSI4
MIOSI5
MIOSI6
MIOSI7
USBDM
USBDP
14
GND
CLK
CS#
MISO
CBUS3
18
17
10
19
16
6
GND
RESET#
20
4
2
9
1
7
8
5
Figure 3.2 SSOP Schematic Symbol
3.2.1 SSOP Package PinOut Description
Note : # denotes an active low signal.
Pin No.
Name
Type
**
POWER
Input
15
VCC
3
VCCIO
3V3OUT
6, 16
Input
5 V (or 3V3) supply to IC
1V8 - 3V3 supply for the IO cells
3V3 output at 50mA. May be used to power VCCIO.
**
13
POWER
Description
GND
POWER
Output
POWER
Input
When VCC is 3V3; pin 13 is an input pin and should be
connected to pin 15.
0V Ground input.
Table 3.4 Power and Ground
** If VCC is 3V3 then 3V3OUT must also be driven with 3V3 input
Pin No.
Name
Type
Description
12
USBDM
INPUT
USB Data Signal Minus.
11
USBDP
INPUT
USB Data Signal Plus.
14
RESET#
INPUT
Reset input (active low).
Table 3.5 Common Function pins
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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Document No.: FT_000630 Clearance No.: FTDI# 263
Pin No.
Name
Type
Description
20
MIOSI[0]
I/O
Bi-Directional data bit 0
4
MIOSI[1]
I/O
Bi-Directional data bit 1
2
MIOSI[2]
I/O
Bi-Directional data bit 2
9
MIOSI[3]
I/O
Bi-Directional data bit 3
1
MIOSI[4]
I/O
Bi-Directional data bit 4
7
MIOSI[5]
I/O
Bi-Directional data bit 5
8
MIOSI[6]
I/O
Bi-Directional data bit 6
5
MIOSI[7]
I/O
18
CLK
Input
Clock input from FT1248 interface master
17
CS#
Input
Chip select input to enable the device interface. Active low logic.
10
MISO
Output
19
CBUS3
I/O
Bi-Directional data bit 7
Master In Serial Out. Used to provide status information to the FT1248
interface master.
Configurable CBUS I/O Pin. Function of this pin is configured in the
device MTP memory. See CBUS Signal Options, Table 3.7.
Table 3.6 FT1248 Interface and CBUS Group (see note 1)
Notes:
1. When used in Input Mode, the input pins are pulled to VCCIO via internal 75kΩ (approx) resistors.
These pins can be programmed to gently pull low during USB suspend (PWREN# = “1”) by setting an
option in the MTP memory.
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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Document No.: FT_000630 Clearance No.: FTDI# 263
3.3 CBUS Signal Options
The following options can be configured on the CBUS I/O pin. CBUS signal options are common to both
package versions of the FT221X. These options can be configured in the internal MTP memory using the
software utility FT_PROG, which can be downloaded from the FTDI Utilities (www.ftdichip.com). The
default configuration is described in Section 9.
CBUS Signal
Option
Available On CBUS Pin
Description
TRI-STATE
CBUS3
IO Pad is tri-stated
DRIVE 1
CBUS3
Output a constant 1
DRIVE 0
CBUS3
Output a constant 0
PWREN#
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. Enable the interface pulldown option when using the PWREN# in this way.
SLEEP#
CBUS3
Goes low during USB suspend mode. Typically used to
power down external logic.
CLK24MHz
CBUS3
24 MHz Clock output.*
CLK12MHz
CBUS3
12 MHz Clock output.*
CLK6MHz
CBUS3
6 MHz Clock output.*
GPIO
CBUS3
CBUS bit bang mode option. Allows the CBUS pin to be
used as general purpose I/O. Configured in the internal
MTP memory. 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
CBUS3
Battery charge Detect, indicates when the device is
connected to a dedicated battery charger host. Active
high output.
BCD Charger#
CBUS3
Inverse of BCD Charger
BitBang_WR#
CBUS3
Synchronous and asynchronous bit bang mode WR#
strobe output.
BitBang_RD#
CBUS3
Synchronous and asynchronous bit bang mode RD#
strobe output.
VBUS Sense
CBUS3
Input to detect when VBUS is present.
Time Stamp
CBUS3
Toggle signal which changes state each time a USB SOF
is received
Keep_Awake#
CBUS3
Prevents the device from entering suspend state when
unplugged.
Table 3.7 CBUS Configuration Control
*When in USB suspend mode the outputs clocks are also suspended.
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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4
Function Description
The FT221X is a USB to FTDI Proprietary FT1248 interface device which simplifies USB implementations
and reduces external component count by fully integrating into the device an MTP memory, and an
integrated clock circuit which requires no external crystal. It has been designed to operate efficiently
with USB host controllers by using as little bandwidth as possible when compared to the total USB
bandwidth available.
4.1 Key Features
Functional Integration. Fully integrated MTP memory, USB termination resistors, clock generation,
AVCC filtering, Power-On-Reset and LDO regulator.
Configurable CBUS I/O Pin Options. The fully integrated MTP memory allows configuration of the
Control Bus (CBUS) functionality and drive strength selection. There is 1 configurable CBUS I/O pin.
These configurable options are defined in section 3.3
The CBUS line can be configured with any one of these output options by setting bits in the internal MTP
memory. The device is shipped with the most commonly used pin definitions pre-programmed - see
Section 9 for details.
Asynchronous Bit Bang Mode with RD# and WR# Strobes. The FT221X supports FTDI’s previous
chip generation bit-bang mode. In bit-bang mode, the eight data lines can be switched from the regular
interface mode to an 8-bit general purpose I/O port. Data packets can be sent to the device and they will
be sequentially sent to the interface at a rate controlled by an internal timer (equivalent to the baud rate
pre-scalar).
Synchronous Bit Bang Mode. The FT221X supports synchronous bit bang mode. This mode differs from
asynchronous bit bang mode in that the interface pins are only read when the device is written to. This
makes it easier for the controlling program to measure the response to an output stimulus as the data
returned is synchronous to the output data. An application note, AN232R-01, available from FTDI website
(www.ftdichip.com) describes this feature.
Source Power and Power Consumption. The FT221X is capable of operating at a voltage supply
between +3.3V and +5.25V with a nominal operational mode current of 8mA and a nominal USB suspend
mode current of 125µA. This allows greater margin for peripheral designs to meet the USB suspend mode
current limit of 2.5mA. An integrated level converter within the device allows the FT221X to interface to
logic running at +1.8V to +3.3V (5V tolerant).
4.2 Functional Block Descriptions
The following paragraphs detail each function within the FT221X. Please refer to the block diagram shown
in Figure 2.1
Internal MTP Memory. The internal MTP memory in the FT221X is used to store USB Vendor ID (VID),
Product ID (PID), device serial number, product description string and various other USB configuration
descriptors. The internal MTP memory is also used to configure the CBUS pin functions. The FT221X is
supplied with the internal MTP memory pre-programmed as described in Section 9. A user area of the
internal MTP memory is available to system designers to allow storing additional data from the user
application over USB. The internal MTP memory descriptors can be programmed in circuit, over USB
without any additional voltage requirement. The descriptors can be programmed using the FTDI utility
software called FT_PROG, which can be downloaded from FTDI Utilities on the FTDI website
(www.ftdichip.com).
+1.8V LDO Regulator. The +1.8V LDO regulator generates the +1.8V reference voltage for driving the
internal core of the IC.
+3.3V LDO Regulator. The +3.3V LDO regulator generates the +3.3V reference voltage for driving the
USB transceiver cell output buffers. It requires an external decoupling capacitor to be attached to the
3V3OUT regulator output pin. It also provides +3.3V power to the 1.5kΩ internal pull up resistor on
USBDP. The main function of the LDO is to power the USB Transceiver and the Reset Generator Cells
rather than to power external logic. However, it can be used to supply external circuitry requiring a
+3.3V nominal supply with a maximum current of 50mA.
USB Transceiver. The USB Transceiver Cell provides the USB 1.1 / USB 2.0 full-speed physical interface
to the USB cable. The output drivers provide +3.3V level slew rate control signalling, whilst a differential
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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input receiver and two single ended input receivers provide USB data in, Single-Ended-0 (SE0) and USB
reset detection conditions respectfully. This function also incorporates a 1.5kΩ pull up resistor on USBDP.
The block also detects when connected to a USB power supply which will not enumerate the device but
still supply power and may be used for battery charging.
USB DPLL. The USB DPLL cell locks on to the incoming NRZI USB data and generates recovered clock
and data signals for the Serial Interface Engine (SIE) block.
Internal 12MHz Oscillator - The Internal 12MHz Oscillator cell generates a 12MHz reference clock. This
provides an input to the x4 Clock Multiplier function. The 12MHz Oscillator is also used as the reference
clock for the SIE, USB Protocol Engine and UART FIFO controller blocks.
Clock Multiplier / Divider. The Clock Multiplier / Divider takes the 12MHz input from the Internal
Oscillator function and generates the 48MHz, 24MHz, 12MHz and 6MHz reference clock signals. The 48Mz
clock reference is used by the USB DPLL and the Baud Rate Generator blocks.
Serial Interface Engine (SIE). The Serial Interface Engine (SIE) block performs the parallel to serial
and serial to parallel conversion of the USB data. In accordance with the USB 2.0 specification, it
performs bit stuffing/un-stuffing and CRC5/CRC16 generation. It also checks the CRC on the USB data
stream.
USB Protocol Engine. The USB Protocol Engine manages the data stream from the device USB control
endpoint. It handles the low level USB protocol requests generated by the USB host controller and the
commands for controlling the functional parameters of the UART in accordance with the USB 2.0
specification chapter 9.
FIFO RX Buffer (512 bytes). Data sent from the USB host controller to the FT1248 interface via the
USB data OUT endpoint is stored in the FIFO RX (receive) buffer. Data is removed from the buffer to the
FT1248 transmit register under control of the FT1248 FIFO controller. (Rx relative to the USB interface).
FIFO TX Buffer (512 bytes). Data from the FT1248 receive register is stored in the TX buffer. The USB
host controller removes data from the FIFO TX Buffer by sending a USB request for data from the device
data IN endpoint. (Tx relative to the USB interface).
FT1248 interface controller. Controls the FT1248 interface, dynamically switching the width of the bus
as commanded by the external bus master.
RESET Generator - The integrated Reset Generator Cell provides a reliable power-on reset to the device
internal circuitry at power up. The RESET# input pin allows an external device to reset the FT221X.
RESET# can be tied to VCC or left unconnected if not being used.
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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5
FT1248 Interface Description.
The FT1248 protocol has a dynamic bi-directional data bus interface that can be configured as 1, 2, 4, or
8-bits wide providing users with the flexibility to configure the interface with performance, pin count and
PCB area in mind. For example, 1-bit mode it requires 8 clock cycles to get 8 data bits and in 8-bit mode
all 8 bits are sent with one clock.
In the FT1248 there are 3 distinct phases:
While CS# is inactive, the FT1248 reflects the status of the write buffer and read buffers within the
FT221X on the MIOSIO[0] and MISO wires respectively. The buffers are 512 Bytes each and the status
will reflect if at least one byte of space is available for the external device to write to and whether at least
one byte is available to be read by the external device.
Additionally, the FT1248 slave block supports multiple slave devices where a master can communicate
with multiple SPI slave devices. When the slave is sharing buses with other SPI slave devices, the write
and read buffer status cannot be reflected on the MIOSIO[0] and MISO wires during SS_n inactivity as
this would cause bus contention. Therefore, it is possible for the user to select whether they wish to have
the buffer status switched on or off during inactivity.
(This setting may be applied in the internal MTP memory with FT_PROG at the same time as selecting
FT1248 mode).
When CS# is active a command/bus size phase occurs first. Following the command phase is the data
phase, for each data byte transferred the FT1248 slave drives an ACK/NAK status onto the MISO wire.
The master can send multiple data bytes so long as CS# is active, if an unsuccessful data transfer occurs,
i.e. a NAK happens on the MISO wire then the master should immediately abort the transfer by deasserting CS#.
Figure 5.1: FT1248 Basic Waveform Protocol.
5.1 Determining the Dynamic Bus Width
The bus width is dynamic. In order for the FT221X, in FT1248 mode, to determine the bus width within
the command phase, the bus width is encoded along with the actual commands on the first active clock
edge when CS# is active and has a data width of 8-bits.

If any of the MIOSIO[7:4] signals are driven low by the external host then the data transfer width
equals 8-bits

If any of the MIOSIO[3:2] signals are driven low by the external host then the data transfer width
equals 4-bits

If MIOSIO[1] signal is driven low by the external host then the data transfer width equals 2-bits

Else the bus width is defaulted to 1-bit
In order to successfully decode the bus width, all MIOSIO signals must have pull up resistors. By default,
all MIOSIO signals shall be seen by the FT221X in FT1248 mode as logic ‘1’from the internal resistors.
This means that when a FT1248 master does not wish to use certain MIOSIO signals, the slave (FT221X)
is still capable of determining the requested bus width since any unused MIOSIO signals shall be pulled
up by default.
The remaining bits used during the command phase are used to contain the command itself which means
that it is possible to define up to 16 unique commands.
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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LSB
MSB
CMD[3]
1-bit Bus
Width
2-bit Bus
Width
4-bit Bus
Width
8-bit Bus
Width
BWID 2-bit BWID 4-bit
CMD[2]
BWID 8-bit
CMD[1]
CMD[0]
X
0
1
2
3
4
5
6
7
CMD[3]
X
X
CMD[2]
X
CMD[1]
CMD[0]
X
0
1
2
3
4
5
6
7
CMD[3]
0
X
CMD[2]
X
CMD[1]
CMD[0]
X
0
1
2
3
4
5
6
7
CMD[3]
X
0
CMD[2]
X
CMD[1]
CMD[0]
X
0
1
2
3
4
5
6
7
CMD[3]
X
X
CMD[2]
0
CMD[1]
CMD[0]
X
0
1
2
3
4
5
6
7
Figure 5.2: FT1248 Command Structure
5.2 Supported Commands on the FT1248 Interface
The FT1248 interface can accept and decode up to 16 unique commands. At this time only 9 unique
commands are implemented as shown below.
Command
Identifier
Description
write
0x00
Write request command
read
0x01
Read request command
read modem status
0x02
Read modem status command, users may wish to emulate
modem status control. A RMS command returns status bits
RTS and DTR
write modem status
0x03
Write modem status command, users may wish to emulate
modem status control. A WMS command allows users to set
status bits: DCD, RI, DSR, CTS
write buffer flush
0x04
Write buffer flush request – This command is used to indicate
to the FT1248 slave that its write buffers should be flushed
rather than wait for any latency timers to expire. If this
command is received the FT1248 block will flag the upstream
controllers (USB FIFOs etc) to flush their write buffers
regardless of what content is present in the FT1248 write
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buffer
address eeprom
0x05
Address EEPROM command sets the address users wish to
write or read from
write eeprom
0x06
Write EEPROM command sets the write data to be written into
the EEPROM
read eeprom
0x07
Read EEPROM command reads
read usb status
0x08
Read USB Status:
00 = suspended, 01 = default, 10 = addressed, 11 =
configured
Reserved
0x09 – 0xF
Unused Commands
Table 5.1: FT1248 Commands
5.3 LSB or MSB Selection
The data can be sent/received Least Significant Bit First (LSB) or Most Significant Bit First (MSB). To
determine which mode is used by the FT1248 interface of the FT221X the MTP memory must be set.
This may be selected with FT_PROG.
5.4 Clock Phase/Polarity
The FT1248 slave does not need to have any knowledge of clock rate as this is supplied by the FT1248
master. However the relationship between clock and data needs to be controllable, to allow the slave to
operate in the same way as the master such that data is correctly driven and sampled on the correct
clock phases. By configuring the polarity and phase of CLK with respect to the data it is possible to match
the FT1248 master.
There are 4 possible modes which are determined by the Clock Polarity (CPOL) and Clock Phase (CPHA)
signals. The different combinations of these signals are commonly referred to as modes, see Table 5.2
below. For the FT1248 slave, only 2 of these 4 modes are supported. CPHA will always be set to 1 in the
FT1248 slave because data is available or driven on to MIOSIO wires on the first clock edge after CS# is
active and is therefore sampled on the trailing edge of the first clock pulse. When CPHA equals 0, it
means data must be available or driven onto the MIOSIO wires on the first leading edge of the clock after
CS# is active. However, during this period between CS# becoming active and the first leading clock edge
is when the MIOSIO wires are being “turned around” as when CS# is inactive the FT1248 slave is driving
the write buffer status. Supporting CPHA = 0 would result in bus contention and therefore, shall not be
supported.
Mode
CPOL
CPHA
Supported
0
0
0
NO
1
0
1
YES
2
1
0
NO
3
1
1
YES
Table 5.2: CPOL & CPHA Mode Numbers
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When CPOL is 1, the idle state of the clock is high. When CPOL is 0, the idle state of the clock is low. It
should be noted that clock phase and polarity need to be identical for the master and attached slave
device.
5.4.1 CPHA = 1
When CPHA is set to ‘1’, the first edge after CS# goes low will be used to shift (or drive) the first data bit
onto MIOSIO. Every odd numbered edge after this will shift out the next data bit. Incoming data will be
sampled on the second or trailing SCLK edge and every even edge thereafter.
Figure 5.3 shows this for both CPOL = 0 and CPOL = 1.
end of idle
SCK Edge No.
Transfer
start
1
2
3
4
5
6
7
8
9
end
10
11
12
13
14
15
start of
next idle
16
SCK (CPOL = 0)
SCK (CPOL = 1)
SS_n
CPHA = 1
Sample
MISO
0
1
2
3
4
5
6
7
MOSI
0
1
2
3
4
5
6
7
Figure 5.3: FT1248 Clock Format CPHA = 1
Note:
The CPOL value may be selected in the MTP memory. This may be done with FT_PROG.
Note: Further information on this interface can be found in AN_167_FT1248 Parallel Serial Interface
Basics from the FTDI website www.ftdichip.com.
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5.5 FT1248 Timing
Figure 5.4: FT1248 Clock Format CPHA = 1
The timings will vary depending on VCCIO.
Min (ns)
Typical (ns)
Max (ns)
Description
T1
83.33ns
SCLK Period
T2
41.67ns
SCLK HIGH
T3
41.67ns
SCLK LOW
T4
1
T5
25
MIOSIO setup time to rising or falling sample
SCLK edge
T6
3
MIOSIO hold time from rising or falling sample
SCLK edge
T7
5
SS_n setup time to rising or falling SCLK edge
T8
5
SS_n hold time from rising or falling sample SCLK
edge
30
SCLK rising or falling driving edge to
MIOSIO/MSIO
Table 5.3: 1V8 VCCIO timings
Min (ns)
Typical (ns)
Max (ns)
Description
T1
83.33ns
SCLK Period
T2
41.67ns
SCLK HIGH
T3
41.67ns
SCLK LOW
T4
1
15
SCLK rising or falling driving edge to
MIOSIO/MSIO
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T5
22
MIOSIO setup time to rising or falling sample
SCLK edge
T6
1
MIOSIO hold time from rising or falling sample
SCLK edge
T7
5
SS_n setup time to rising or falling SCLK edge
T8
5
SS_n hold time from rising or falling sample SCLK
edge
Table 5.4: 2V5 VCCIO timings
Min (ns)
Typical (ns)
Max (ns)
Description
T1
83.33ns
SCLK Period
T2
41.67ns
SCLK HIGH
T3
41.67ns
SCLK LOW
T4
1
T5
20
MIOSIO setup time to rising or falling sample
SCLK edge
T6
0
MIOSIO hold time from rising or falling sample
SCLK edge
T7
5
SS_n setup time to rising or falling SCLK edge
T8
5
SS_n hold time from rising or falling sample SCLK
edge
10
SCLK rising or falling driving edge to
MIOSIO/MSIO
Table 5.5: 3V3 VCCIO timings
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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6
Devices Characteristics and Ratings
6.1 Absolute Maximum Ratings
The absolute maximum ratings for the FT221X devices are as follows. These are in accordance with the
Absolute Maximum Rating System (IEC 60134). Exceeding these may cause permanent damage to the
device.
Parameter
Value
Unit
Storage Temperature
-65°C to 150°C
Degrees C
Conditions
168 Hours
Floor Life (Out of Bag) At Factory Ambient
(30°C / 60% Relative Humidity)
(IPC/JEDEC JSTD-033A MSL
Level 3
Compliant)*
Ambient Operating Temperature (Power
Applied)
-40°C to 85°C
Degrees C
MTTF FT221XS
TBD
Hours
MTTF FT221XQ
TBD
Hours
VCC Supply Voltage
-0.3 to +5.5
V
VCCIO IO Voltage
-0.3 to +4.0
V
DC Input Voltage – USBDP and USBDM
-0.5 to +3.63
V
-0.3 to +5.8
V
22
mA
DC Input Voltage – High Impedance
Bi-directionals (powered from VCCIO)
DC Output Current – Outputs
Hours
Table 6.1 Absolute Maximum Ratings
* If devices are stored out of the packaging beyond this time limit the devices should be baked before
use. The devices should be ramped up to a temperature of +125°C and baked for up to 17 hours.
6.2 ESD and Latch-up Specifications
Description
Specification
Human Body Mode (HBM)
> ± 2kV
Machine mode (MM)
> ± 200V
Charged Device Mode (CDM)
> ± 500V
Latch-up
> ± 200mA
Table 6.2 ESD and Latch-Up Specifications
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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6.3 DC Characteristics
DC Characteristics (Ambient Temperature = -40°C to +85°C)
Parameter
Description
Minimum
Typical
Maximum
Units
Conditions
VCC
VCC Operating Supply
Voltage
2.97
5
5.5
V
Normal Operation
VCC2
VCCIO Operating
Supply Voltage
1.62
---
3.63
V
Icc1
Operating Supply
Current
8.1
11
13.1
mA
Normal Operation
Icc2
Operating Supply
Current
μA
USB Suspend
V
VCC must be
greater than 3V3
otherwise 3V3OUT
is an input which
must be driven
with 3.3V
3V3
3.3v regulator output
125
2.97
3.3
3.63
Table 6.3 Operating Voltage and Current
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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Parameter
Description
Minimum
Typical
Maximum
Units
Conditions
2.97
VCCIO
VCCIO
V
2.97
VCCIO
VCCIO
V
I/O Drive strength*
= 8mA
2.97
VCCIO
VCCIO
V
I/O Drive strength*
= 12mA
2.97
VCCIO
VCCIO
V
I/O Drive strength*
= 16mA
0
0.4
V
0
0.4
V
I/O Drive strength*
= 8mA
0
0.4
V
I/O Drive strength*
= 12mA
0
0.4
V
I/O Drive strength*
= 16mA
0.8
V
LVTTL
V
LVTTL
LVTTL
Ioh = +/-2mA
Voh
Output Voltage High
I/O Drive strength*
= 4mA
Iol = +/-2mA
Vol
Output Voltage Low
I/O Drive strength*
= 4mA
Vil
Input low Switching
Threshold
Vih
Input High Switching
Threshold
Vt
Switching Threshold
1.49
V
Vt-
Schmitt trigger negative
going threshold voltage
1.15
V
Vt+
Schmitt trigger positive
going threshold voltage
1.64
V
Rpu
Input pull-up resistance
40
75
190
KΩ
Vin = 0
Rpd
Input pull-down
resistance
40
75
190
KΩ
Vin =VCCIO
Iin
Input Leakage Current
-10
+/-1
10
μA
Vin = 0
μA
Vin = 5.5V or 0
2.0
Tri-state output leakage
-10
+/-1
10
current
Table 6.4 I/O Pin Characteristics VCCIO = +3.3V (except USB PHY pins)
Ioz
* The I/O drive strength and slow slew-rate are configurable in the MTP memory.
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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Document No.: FT_000630 Clearance No.: FTDI# 263
Parameter
Description
Minimum
Typical
Maximum
Units
Conditions
2.25
VCCIO
VCCIO
V
2.25
VCCIO
VCCIO
V
I/O Drive strength*
= 8mA
2.25
VCCIO
VCCIO
V
I/O Drive strength*
= 12mA
2.25
VCCIO
VCCIO
V
I/O Drive strength*
= 16mA
Ioh = +/-2mA
Voh
Output Voltage High
I/O Drive strength*
= 4mA
Iol = +/-2mA
Vol
Output Voltage Low
0
0.4
V
0
0.4
V
I/O Drive strength*
= 8mA
0
0.4
V
I/O Drive strength*
= 12mA
0
0.4
V
I/O Drive strength*
= 16mA
0.8
V
LVTTL
V
LVTTL
LVTTL
I/O Drive strength*
= 4mA
Vil
Input low Switching
Threshold
Vih
Input High Switching
Threshold
Vt
Switching Threshold
1.1
V
Vt-
Schmitt trigger negative
going threshold voltage
0.8
V
Vt+
Schmitt trigger positive
going threshold voltage
1.2
V
Rpu
Input pull-up resistance
40
75
190
KΩ
Vin = 0
Rpd
Input pull-down
resistance
40
75
190
KΩ
Vin =VCCIO
Iin
Input Leakage Current
-10
+/-1
10
μA
Vin = 0
μA
Vin = 5.5V or 0
0.8
Tri-state output leakage
-10
+/-1
10
current
Table 6.5 I/O Pin Characteristics VCCIO = +2.5V (except USB PHY pins)
Ioz
* The I/O drive strength and slow slew-rate are configurable in the MTP memory.
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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Parameter
Description
Minimum
Typical
Maximum
Units
Conditions
1.62
VCCIO
VCCIO
V
1.62
VCCIO
VCCIO
V
I/O Drive strength*
= 8mA
1.62
VCCIO
VCCIO
V
I/O Drive strength*
= 12mA
1.62
VCCIO
VCCIO
V
I/O Drive strength*
= 16mA
Ioh = +/-2mA
Voh
Output Voltage High
I/O Drive strength*
= 4mA
Iol = +/-2mA
Vol
Output Voltage Low
0
0.4
V
0
0.4
V
I/O Drive strength*
= 8mA
0
0.4
V
I/O Drive strength*
= 12mA
0
0.4
V
I/O Drive strength*
= 16mA
0.77
V
LVTTL
V
LVTTL
LVTTL
I/O Drive strength*
= 4mA
Vil
Input low Switching
Threshold
Vih
Input High Switching
Threshold
Vt
Switching Threshold
0.77
V
Vt-
Schmitt trigger negative
going threshold voltage
0.557
V
Vt+
Schmitt trigger positive
going threshold voltage
0.893
V
Rpu
Input pull-up resistance
40
75
190
KΩ
Vin = 0
Rpd
Input pull-down
resistance
40
75
190
KΩ
Vin =VCCIO
Iin
Input Leakage Current
-10
+/-1
10
μA
Vin = 0
μA
Vin = 5.5V or 0
1.6
Tri-state output leakage
-10
+/-1
10
current
Table 6.6 I/O Pin Characteristics VCCIO = +1.8V (except USB PHY pins)
Ioz
* The I/O drive strength and slow slew-rate are configurable in the MTP memory.
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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Document No.: FT_000630 Clearance No.: FTDI# 263
Parameter
Description
Minimum
Voh
Output Voltage High
VCC-0.2
Vol
Output Voltage Low
Vil
Input low Switching
Threshold
Vih
Input High Switching
Threshold
Typical
Maximum
Units
Conditions
V
-
0.2
V
0.8
V
-
2.0
V
Table 6.7 USB I/O Pin (USBDP, USBDM) Characteristics
6.4 MTP Memory Reliability Characteristics
The internal 2048 Byte MTP memory has the following reliability characteristics:
Parameter
Value
Unit
Data Retention
10
Years
Write Cycle
2,000
Cycles
Read Cycle
Unlimited
Cycles
Table 6.8 MTP Memory Characteristics
6.5 Internal Clock Characteristics
The internal Clock Oscillator has the following characteristics:
Value
Parameter
Unit
Minimum
Typical
Maximum
Frequency of Operation
(see Note 1)
11.98
12.00
12.02
MHz
Clock Period
83.19
83.33
83.47
ns
Duty Cycle
45
50
55
%
Table 6.9 Internal Clock Characteristics
Note 1: Equivalent to +/-1667ppm
Copyright © 2013 Future Technology Devices International Limited
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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Document No.: FT_000630 Clearance No.: FTDI# 263
7
USB Power Configurations
The following sections illustrate possible USB power configurations for the FT221X. The illustrations have
omitted pin numbers for ease of understanding since the pins differ between the FT221XS and FT221XQ
package options.
All USB power configurations illustrated apply to both package options for the FT221X device. Please refer
to Section 3 for the package option pin-out and signal descriptions.
7.1 USB Bus Powered Configuration
VCC
Ferrite
Bead
1
VCC
2
27R
3
27R
USBDM
USBDP
4
47pF
47pF
FT221X
5
RESET#
SHIELD
VCCIO
10nF
GND
GND
VCC
GN
D
AG
ND
3V3OUT
100nF
+
4.7uF
100nF
GND
GND
Figure 7.1 Bus Powered Configuration
Figure 7.1 Illustrates the FT221X in a typical USB bus powered design configuration. A USB bus powered
device gets its power from the USB bus. Basic rules for USB bus power devices are as follows –
i)
ii)
iii)
iv)
v)
On plug-in to USB, the device should draw no more current than 100mA.
In USB Suspend mode the device should draw no more than 2.5mA.
A bus powered high power USB device (one that draws more than 100mA) should use one of
the CBUS pins configured as PWREN# and use it to keep the current below 100mA on plug-in
and 2.5mA on USB suspend.
A device that consumes more than 100mA cannot be plugged into a USB bus powered hub.
No device can draw more than 500mA from the USB bus.
The power descriptors in the internal MTP memory of the FT221X should be programmed to match the
current drawn by the device.
A ferrite bead is connected in series with the USB power supply to reduce EMI noise from the FT221X and
associated circuitry being radiated down the USB cable to the USB host. The value of the Ferrite Bead
depends on the total current drawn by the application. A suitable range of Ferrite Beads is available from
Steward (www.steward.com), for example Steward Part # MI0805K601R-10.
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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7.2 Self Powered Configuration
VCC(3.3-5.25V)
1
VCC
27R
2
USBDM
27R
3
USBDP
4
47pF
47pF
4k7
FT221X
5
VBUS_SENSE
SHIELD
VCCIO
GND
3V3OUT
GND
GN
D
GND
RESET#
AG
ND
10k
VCC
100nF
100nF
100nF
+
4.7uF
GND
GND
Figure 7.2 Self Powered Configuration
Figure 7.2 illustrates the FT221X in a typical USB self powered configuration. A USB self powered device
gets its power from its own power supply, VCC, and does not draw current from the USB bus. The basic
rules for USB self powered devices are as follows –
i)
ii)
iii)
A self powered device should not force current down the USB bus when the USB host or hub
controller is powered down.
A self powered device can use as much current as it needs during normal operation and USB
suspend as it has its own power supply.
A self powered device can be used with any USB host, a bus powered USB hub or a self
powered USB hub.
The power descriptor in the internal MTP memory of the FT221X should be programmed to a value of
zero (self powered).
In order to comply with the first requirement above, the USB bus power (pin 1) is used to control the
VBUS_Sense pin of the FT221X device. When the USB host or hub is powered up an internal 1.5kΩ
resistor on USBDP is pulled up to +3.3V, thus identifying the device as a full speed device to the USB
host or hub. When the USB host or hub is powered off, VBUS_Sense pin will be low and the FT221X is
held in a suspend state. In this state the internal 1.5kΩ resistor is not pulled up to any power supply
(hub or host is powered down), so no current flows down USBDP via the 1.5kΩ pull-up resistor. Failure to
do this may cause some USB host or hub controllers to power up erratically.
Figure 7.2 illustrates a self powered design which has a +3.3V to +5.25V supply.
Note:
1. When the FT221X is in reset, the UART interface I/O pins are tri-stated. Input pins have internal
200kΩ pull-up resistors to VCCIO, so they will gently pull high unless driven by some external
logic.
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FT221X USB 8-BIT SPI/FT1248 IC Datasheet
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7.3 USB Bus Powered with Power Switching Configuration
P Channel Power
MOSFET
Switched 5V Power to
External Logic
0.1uF
0.1uF
10k
1k
PWREN#
Ferrite
Bead
1
VCC
27R
2
USBDM
3
27R
USBDP
4
47pF
47pF
FT221X
5
SHIELD
RESET#
10nF
VCCIO
GND
VCC
CBUS3
GN
D
AG
ND
3V3OUT
GND
100nF
+
4.7uF
100nF
GND
GND
Figure 7.3 Bus Powered with Power Switching Configuration
A requirement of USB bus powered applications, is when in USB suspend mode, the application draws a
total current of less than 2.5mA. This requirement includes external logic. Some external logic has the
ability to power itself down into a low current state by monitoring the PWREN# signal. For external logic
that cannot power itself down in this way, the FT221X provides a simple but effective method of turning
off power during the USB suspend mode.
Figure 7.3 shows an example of using a discrete P-Channel MOSFET to control the power to external
logic. A suitable device to do this is an International Rectifier (www.irf.com) IRLML6402, or equivalent. It
is recommended that a “soft start” circuit consisting of a 1kΩ series resistor and a 0.1μF capacitor is used
to limit the current surge when the MOSFET turns on. Without the soft start circuit it is possible that the
transient power surge, caused when the MOSFET switches on, will reset the FT221X or the USB host/hub
controller. The soft start circuit example shown in Figure 7.3 powers up with a slew rate of
approximaely12.5V/ms. Thus supply voltage to external logic transitions from GND to +5V in
approximately 400 microseconds.
As an alternative to the MOSFET, a dedicated power switch IC with inbuilt “soft-start” can be used. A
suitable power switch IC for such an application is the Micrel (www.micrel.com) MIC2025-2BM or
equivalent.
With power switching controlled designs the following should be noted:
i)
The external logic to which the power is being switched should have its own reset circuitry to
automatically reset the logic when power is re-applied when moving out of suspend mode.
ii) Set the Pull-down on Suspend option in the internal FT221X MTP memory.
iii) One of the CBUS Pins should be configured as PWREN# in the internal FT221X MTP memory, and
used to switch the power supply to the external circuitry.
iv) For USB high-power bus powered applications (one that consumes greater than 100mA, and up
to 500mA of current from the USB bus), the power consumption of the application must be set in
the Max Power field in the internal FT221X MTP memory. A high-power bus powered application
uses the descriptor in the internal FT221X MTP memory to inform the system of its power
requirements.
v) PWREN# gets its VCC from VCCIO. For designs using 3V3 logic, ensure VCCIO is not powered
down using the external logic. In this case use the +3V3OUT.
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7.4 USB Battery Charging Detection
A recent addition to the USB specification (http://www.usb.org/developers/devclass_docs/BCv1.2_011912.zip )
is to allow for additional charging profiles to be used for charging batteries in portable devices. These
charging profiles do not enumerate the USB port of the peripheral. The FT221X device will detect that a
USB compliant dedicated charging port (DCP) is connected. Once detected while in suspend mode a
battery charge detection signal is provided to allow external logic to switch to charging mode as opposed
to operation mode.
VBUS
3V3OUT
VBUS
VBUS
DD+
ID
GND
1
2
3
4
5
VBUS
0.1uF
GND
DM
DP
27R
27R
3V3OUT
0.1uF
VCCIO
3V3OUT
VCC
600R/2A
CN USB
3V3OUT
GND
RESET#
10nF
N.F.
GND
GND
0.1uF
0R
BCD
CBUS3
FT221X
SLD
GND
GND
GND
VBUS VBUS
GND
VBUS
VBATT
4.7uF
0.1uF
GND
1
2
3
4
5
GND
CHRG
VCC
FAULT
TIMER
GND
ACPR
BAT
SHDN
PROG
NTC
GND
0.1uF
10
9
8
7
6
1
+
NCT
TB3.5mm
BCD
NTC
LTC4053EDD
11
2K2
1uF
1K5
1R
GND
GND
GND
GND
GND
EEPROM Setting
X-Chip Pin
CBUS3
Function
BCD
Battery Options
Battery Charger Enable X
Force Power Enable
GND GND
1A when connected to a dedicated charger port
0A when enumerated
0A when not enumerated and not in sleep
0A when in sleep
VBUS
NTC
JP1
NCT Available
4K32 1%
De-acticate Sleep
JUMPER-2mm
JP1
SIP-3
1-2
2-3
NCT Enabled
NCT Disabled (Default)
GND
Figure 7.4 USB Battery Charging Detection
To use the FT221X with battery charging detection the CBUS pin must be reprogrammed to allow for the
BCD Charger output to switch the external charger circuitry on. The CBUS pins are configured in the
internal MTP memory with the free utility FTPROG. If the charging circuitry requires an active low signal
to enable it, the CBUS pin can be programmed to BCD Charger# as an alternative.
When connected to a USB compliant dedicated charging port (DCP, as opposed to a standard USB host)
the device USB signals will be shorted together and the device suspended. The BCD charger signal will
bring the LTC4053 out of suspend and allow battery charging to start. The charge current in the example
above is 1A as defined by the resistance on the PROG pin.
To calculate the equivalent resistance on the LTC4053 PROG pin select a charge current, then Res =
1500V/Ichg
For more configuration options of the LTC4053 refer to: AN_175_Battery Charging Over USB
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8
Application Examples
The following sections illustrate possible applications of the FT221X. The illustrations have omitted pin
numbers for ease of understanding since the pins differ between the FT221XS and FT221XQ package
options.
8.1 USB to FT1248 Converter
Figure 8.1 Application Example showing USB to FT1248 host
NOTE: ALL IO LINES SHOULD HAVE A 10k PULL UP TO VCCIO
The FT1248 can be used with 1-bit, 2-bit, 4-bit or 8-bit wide data. The Figure 8.1 is showing 8 bit mode.
By using 8 data bits you need fewer clock cycles to get the data across.
The FT221X is the slave device and the external FPGA/MCU is the bus master. The FT221X will auto
detect the bus width from the initial command byte sent by the controller. If not using all 8 data lines the
pins may be left unterminated as an internal pull-up ensures the device detects a logic 1.
Timing diagrams for 8-bit accesses can be seen in figures 8.2 and 8.3. For further information on the
mode see AN_167 FT1248 Basics from the FTDI website.
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CLK
SS_n
COMMAND PHASE
WRITE DATA 1
BUS TURNAROUND
BUS TURNAROUND
BUS TURNAROUND
CMD3
B7
B7
MIOSIO[1]
0
B6
B6
MIOSIO[2]
0
B5
B5
CMD2
B4
B4
MIOSIO[4]
0
B3
B3
MIOSIO[5]
CMD1
MIOSIO[0]
TXE#
MIOSIO[3]
B2
B2
MIOSIO[6]
CMD0
B1
B1
MIOSIO[7]
X
B0
B0
MISO
RXF#
TXE#
ACK
TXE#
ACK
RXF#
Figure 8.2 FT1248 8- bit write timing diagram
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CLK
SS_n
COMMAND PHASE
READ DATA 1
BUS TURNAROUND
READ DATA 2
BUS TURNAROUND
B7
CMD3
B7
MIOSIO[1]
0
B6
B6
MIOSIO[2]
0
B5
B5
CMD2
B4
B4
MIOSIO[4]
0
B3
B3
MIOSIO[5]
CMD1
MIOSIO[0]
TXE#
MIOSIO[3]
B2
B2
MIOSIO[6]
CMD0
B1
B1
MIOSIO[7]
X
B0
B0
ACK
ACK
MISO
RXF#
RXF#
TXE#
RXF#
Figure 8.3 FT1248 8- bit read timing diagram
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9
Internal MTP Memory Configuration
The FT221X includes an internal MTP memory which holds the USB configuration descriptors, other
configuration data for the chip and also user data areas. Following a power-on reset or a USB reset the
FT221X will scan its internal MTP memory and read the USB configuration descriptors stored there.
In many cases, the default values programmed into the MTP memory will be suitable and no reprogramming will be necessary. The defaults can be found in Section 9.1.
The MTP memory in the FT221X can be programmed over USB if the values need to be changed for a
particular application. Further details of this are provided from section 9.2 onwards.
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. See TN_100 – USB Vendor ID/Product ID
Guidelines for more details.
9.1 Default Values
The default factory programmed values of the internal MTP memory are shown in Table 9.1.
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 memory during device
final test.
Pull down I/O Pins in USB
Suspend
Disabled
Enabling this option will make the device pull down
on the UART interface lines when in USB suspend
mode (PWREN# is high).
Manufacturer Name
FTDI
Product Description
FT221X 8-BIT
FT1248
Max Bus Power Current
90mA
Power Source
Bus Powered
Device Type
FT221X
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).
USB Version
0200
Remote Wake Up
Disabled
DBUS Drive Current
Strength
4mA
Options are 4mA, 8mA, 12mA, 16mA
DBUS slew rate
Slow
Options are slow or fast
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Parameter
Value
Notes
DBUS Schmitt Trigger
Enable
Normal
Options are normal or Schmitt
CBUS Drive Current
Strength
4mA
Options are 4mA, 8mA, 12mA, 16mA
CBUS slew rate
Slow
Options are slow or fast
CBUS Schmitt Trigger
Enable
Normal
Options are normal or Schmitt
Load VCP Driver
Disabled
Enabling this will load the VCP driver interface for
the device.
CBUS3
Keep_Awake#
Prevents the device from entering suspend state
when unplugged.
Table 9.1 Default Internal MTP Memory Configuration
9.2 Method of Programming the MTP Memory
9.2.1 Programming the MTP memory over USB
The MTP memory on all FT-X devices can be programmed over USB. This method is the same as for the
EEPROM on other FTDI devices such as the FT232R. No additional hardware, connections or programming
voltages are required. The device is simply connected to the host computer in the same way that it would
be for normal applications, and the FT_Prog utility is used to set the required options and program the
device.
The FT_Prog utility is provided free-of-charge from the FTDI website, and can be found at the link below.
The user guide is also available at this link.
http://www.ftdichip.com/Support/Utilities.htm#FT_Prog
Additionally, D2XX commands can be used to program the MTP memory from within user applications.
For more information on the commands available, please see the D2XX Programmers Guide below.
http://www.ftdichip.com/Support/Documents/ProgramGuides/D2XX_Programmer's_Guide(FT_000071).p
df
9.3 Memory Map
The FT-X family MTP memory has various areas which come under three main categories:



User Memory Area
Configuration Memory Area (writable)
Configuration Memory Area (non-writable)
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Memory Area Description
Word Address
User Memory Area 2
Accessible via USB, I2C and FT1248
0x3FF - 0x80
Configuration Memory Area
Accessible via USB, I2C and FT1248
0x7E - 0x50
Configuration Memory Area
Cannot be written
0x4E - 0x40
User Memory Area 1
Accessible via USB, I2C and FT1248
0x3E - 0x12
Configuration Memory Area
Accessible via USB, I2C and FT1248
0x10 - 0x00
Figure 9.1: Simplified memory map for the FT-X
User Memory Area
The User Memory Areas are highlighted in Green on the memory map. They can be read and written via
both USB and FT1248 on the FT221X. All locations within this range are freely programmable; no areas
have special functions and there is no checksum for the user area.
Note that the application should take into account the specification for the number of write cycles in
Section 6.4 if it will be writing to the MTP memory multiple times.
Configuration Memory Area (writable)
This area stores the configuration data for the device, including the data which is returned to the host in
the configuration descriptors (e.g. the VID, PID and string descriptions) and also values which set the
hardware configuration (the signal assigned to each CBUS pin for example).
These values can have a significant effect on the behaviour of the device. Steps must be taken to ensure
that these locations are not written to un-intentionally by an application which is intended to access only
the user area.
This area is included in a checksum which covers configuration areas of the memory, and so changing
any value can also cause this checksum to fail.
Configuration Memory Area (non-writable)
This is a reserved area and the application should not write to this area of memory. Any attempt to write
these locations will fail.
9.4 Hardware Requirements
The hardware is the same as for a typical USB-FT1248 application and no additional hardware or
programming voltages are required. For the USB connections, either a bus-powered configuration (see
Section 7.1 and 7.3) or a self-powered configuration (see Section 7.2) could be used.
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10 Package Parameters
The FT221X is available in two different packages. The FT221XS is the SSOP-20 option and the FT221XQ
is the QFN-32 package option. The solder reflow profile for both packages is described in Section 10.5.
10.1 SSOP-20 Package Mechanical Dimensions
Figure 10.1 SSOP-20 Package Dimensions
The FT221XS is supplied in a RoHS compliant 20 pin SSOP package. The package is lead (Pb) free and
uses a ‘green’ compound. The package is fully compliant with European Union directive 2002/95/EC.
This package is nominally 8.66mm x 3.91mm body (8.66mm x 5.99mm including pins). The pins are on a
0.635 mm pitch. The above mechanical drawing shows the SSOP-20 package.
All dimensions are in inches.
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10.2 SSOP-20 Package Markings
20
11
-B
FT221XS
1
10
Figure 10.2 QFN-20 Package Markings
The date code format is YYXX where XX = 2 digit week number, YY = 2 digit year number. This is
followed by the revision number.
The code XXXXXXXXXXXX is the manufacturing LOT code.
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10.3 QFN-20 Package Mechanical Dimensions
Figure 10.3 QFN-20 Package Dimensions
The FT221XQ is supplied in a RoHS compliant leadless QFN-20 package. The package is lead (Pb) free,
and uses a ‘green’ compound. The package is fully compliant with European Union directive 2002/95/EC.
This package is nominally 4.00mm x 4.00mm. The solder pads are on a 0.50mm pitch. The above
mechanical drawing shows the QFN-32 package. All dimensions are in millimetres.
The centre pad on the base of the FT221XQ is internally connected to GND, and the PCB should not have
signal tracks on the top layer under this device.
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10.4 QFN-20 Package Markings
20
1
FTDI
I
XXXXXXXXXX
15
FT221XQ
YYWW-B
6
10
Figure 10.4 QFN-20 Package Markings
The date code format is YYXX where XX = 2 digit week number, YY = 2 digit year number. This is
followed by the revision number.
The code XXXXXXX is the manufacturing LOT code.
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10.5 Solder Reflow Profile
The FT221X is supplied in Pb free 20 LD SSOP and QFN-20 packages. The recommended solder reflow
profile for both package options is shown in Figure 10.5.
Temperature, T (Degrees C)
tp
Tp
Critical Zone: when
T is in the range
TL to Tp
Ramp Up
TL
tL
TS Max
Ramp
Down
TS Min
tS
Preheat
25
T = 25º C to TP
Time, t (seconds)
Figure 10.5 FT221X Solder Reflow Profile
The recommended values for the solder reflow profile are detailed in Table 10.1. Values are shown for
both a completely Pb free solder process (i.e. the FT221X is used with Pb free solder), and for a non-Pb
free solder process (i.e. the FT221X is used with non-Pb free solder).
Profile Feature
Pb Free Solder Process
Non-Pb Free Solder Process
Average Ramp Up Rate (Ts to Tp)
3°C / second Max.
3°C / Second Max.
Preheat
- Temperature Min (Ts Min.)
150°C
100°C
- Temperature Max (Ts Max.)
200°C
150°C
- Time (ts Min to ts Max)
60 to 120 seconds
60 to 120 seconds
217°C
183°C
60 to 150 seconds
60 to 150 seconds
260°C
240°C
20 to 40 seconds
20 to 40 seconds
Ramp Down Rate
6°C / second Max.
6°C / second Max.
Time for T= 25°C to Peak Temperature, Tp
8 minutes Max.
6 minutes Max.
Time Maintained Above Critical Temperature
TL:
- Temperature (TL)
- Time (tL)
Peak Temperature (Tp)
Time within 5°C of actual Peak Temperature
(tp)
Table 10.1 Reflow Profile Parameter Values
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11 Contact Information
Head Office – Glasgow, UK
Branch Office – Tigard, 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
Future Technology Devices International Limited
(USA)
7130 SW Fir Loop
Tigard, OR 97223
USA
Tel: +1 (503) 547 0988
Fax: +1 (503) 547 0987
E-mail (Sales)
E-mail (Support)
E-mail (General Enquiries)
E-Mail (Sales)
E-Mail (Support)
E-Mail (General Enquiries)
[email protected]
[email protected]
[email protected]
Branch Office – Taipei, Taiwan
Future Technology Devices International Limited
(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)
E-mail (Support)
E-mail (General Enquiries)
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
[email protected]
Branch Office – Shanghai, China
Future Technology Devices International Limited
(China)
Room 408, 317 Xianxia Road,
Shanghai, 200051
China
Tel: +86 21 62351596
Fax: +86 21 62351595
E-mail (Sales)
E-mail (Support)
E-mail (General Enquiries)
[email protected]
[email protected]
[email protected]
Web Site
http://ftdichip.com
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
Copyright © 2013 Future Technology Devices International Limited
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Appendix A – References
Useful Application Notes
http://www.ftdichip.com/Documents/AppNotes/AN232R-01_FT232RBitBangModes.pdf
http://www.ftdichip.com/Documents/AppNotes/AN_107_AdvancedDriverOptions_AN_000073.pdf
http://www.ftdichip.com/Documents/AppNotes/AN_121_FTDI_Device_EEPROM_User_Area_Usage.pdf
http://www.ftdichip.com/Documents/AppNotes/AN_167_FT1248_Parallel_Serial_Interface_Basics.pdf
http://www.ftdichip.com/Documents/InstallGuides.htm
http://www.ftdichip.com/Support/Documents/TechnicalNotes/TN_100_USB_VID-PID_Guidelines.pdf
http://www.ftdichip.com/Support/Documents/AppNotes/AN_175_Battery%20Charging%20Over%20USB
%20with%20FTEX%20Devices.pdf
http://www.usb.org/developers/devclass_docs/BCv1.2_011912.zip
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Appendix B - List of Figures and Tables
List of Figures
Figure 2.1 FT221X Block Diagram ................................................................................................... 4
Figure 3.1 QFN Schematic Symbol .................................................................................................. 7
Figure 3.2 SSOP Schematic Symbol ................................................................................................ 9
Figure 5.1: FT1248 Basic Waveform Protocol.................................................................................. 14
Figure 5.2: FT1248 Command Structure ........................................................................................ 15
Figure 5.3: FT1248 Clock Format CPHA = 1 ................................................................................... 17
Figure 5.4: FT1248 Clock Format CPHA = 1 ................................................................................... 18
Figure 7.1 Bus Powered Configuration ........................................................................................... 26
Figure 7.2 Self Powered Configuration ........................................................................................... 27
Figure 7.3 Bus Powered with Power Switching Configuration ............................................................ 28
Figure 7.4 USB Battery Charging Detection .................................................................................... 29
Figure 8.1 Application Example showing USB to FT1248 host ........................................................... 30
Figure 8.2 FT1248 8- bit write timing diagram ................................................................................ 31
Figure 8.3 FT1248 8- bit read timing diagram ................................................................................ 32
Figure 9.1: Simplified memory map for the FT-X ............................................................................ 35
Figure 10.1 SSOP-20 Package Dimensions ..................................................................................... 36
Figure 10.2 QFN-20 Package Markings .......................................................................................... 37
Figure 10.3 QFN-20 Package Dimensions ....................................................................................... 38
Figure 10.4 QFN-20 Package Markings .......................................................................................... 39
Figure 10.5 FT221X Solder Reflow Profile ....................................................................................... 40
List of Tables
Table 3.1 Power and Ground .......................................................................................................... 7
Table 3.2 Common Function pins .................................................................................................... 8
Table 3.3 FT1248 Interface and CBUS Group (see note 1).................................................................. 8
Table 3.4 Power and Ground .......................................................................................................... 9
Table 3.5 Common Function pins .................................................................................................... 9
Table 3.6 FT1248 Interface and CBUS Group (see note 1)................................................................ 10
Table 3.7 CBUS Configuration Control ........................................................................................... 11
Table 5.1: FT1248 Commands ...................................................................................................... 16
Table 5.2: CPOL & CPHA Mode Numbers ........................................................................................ 16
Table 5.3: 1V8 VCCIO timings ...................................................................................................... 18
Table 5.4: 2V5 VCCIO timings ...................................................................................................... 19
Table 5.5: 3V3 VCCIO timings ...................................................................................................... 19
Table 6.1 Absolute Maximum Ratings ............................................................................................ 20
Table 6.2 ESD and Latch-Up Specifications .................................................................................... 20
Table 6.3 Operating Voltage and Current ....................................................................................... 21
Table 6.4 I/O Pin Characteristics VCCIO = +3.3V (except USB PHY pins) ........................................... 22
Table 6.5 I/O Pin Characteristics VCCIO = +2.5V (except USB PHY pins) ........................................... 23
Table 6.6 I/O Pin Characteristics VCCIO = +1.8V (except USB PHY pins) ........................................... 24
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Table 6.7 USB I/O Pin (USBDP, USBDM) Characteristics .................................................................. 25
Table 6.8 MTP Memory Characteristics........................................................................................... 25
Table 6.9 Internal Clock Characteristics ......................................................................................... 25
Table 9.1 Default Internal MTP Memory Configuration ..................................................................... 34
Table 10.1 Reflow Profile Parameter Values .................................................................................... 40
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Appendix C - Revision History
Document Title:
USB 8-Bit SPI/FT1248 IC FT221X
Document Reference No.:
FT_000630
Clearance No.:
FTDI# 263
Product Page:
http://www.ftdichip.com/FT-X.htm
Document Feedback:
Send Feedback
Version 1.0
Initial Release
8th February 2012
Version 1.1
Added USB compliance in section 1.3
17th April 2012
Clarified MTP Reliability in table 6.8
Edited EEPROM Table 9.1 changed Load VCP
Driver to Disabled and edited Product Description
Version 1.2
Removed references to LED signals on the CBUS pins as
14th Feb 2013
these are not available on the FT221X.
Removed section 8.2 showing connection of the Tx/Rx LEDs.
Updated TID
Updated US address
Added clarification on front page – 5V tolerant
Version 1.3
Removed references to MTP programming over FT1248 and
10th Feb 2014
clarified package dimensions.
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