TIAO USB Multi Protocol Adapter Lite User's Manual

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Revision as of 16:03, 6 October 2012 by Admin (talk | contribs) (GPIO Header 1)
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10 PCS, 10cm x 10cm, 2 layers prototype for $38.80 shipped!








Buy various JTAG cables for your Satellite Receiver, Cable Modem, Wireless Router, Standard Wiggler from http://www.easymg.com and http://www.diygadget.com


Overview

The TIAO USB Multi Protocol Adapter Lite (TUMPA Lite) is a multi-functional USB communication adapter for hobbyists or engineers. The adapter is based on FDTI's flagship communication chip FT232H, a USB 2.0 Hi-Speed (480Mb/s) to UART/FIFO IC. It has one multi-protocol synchronous serial engines (MPSSEs) which allow for communication using JTAG, I2C and SPI on two channels simultaneously.


Technical Specifications

  • Single channel USB to serial / parallel ports with a variety of configurations.
  • Entire USB protocol handled on the chip. No USB specific firmware programming required.
  • USB 2.0 Hi-Speed (480Mbits/Second) and Full Speed (12Mbits/Second) compatible.
  • Multi-Protocol Synchronous Serial Engine (MPSSE) to simplify synchronous serial protocol (USB to JTAG, I2C, SPI or bit-bang) design.
  • UART transfer data rate up to 12Mbaud. (RS232 Data Rate limited by external level shifter).
  • USB to asynchronous 245 FIFO mode for transfer data rate up to 8 MByte/Sec.
  • USB to synchronous 245 parallel FIFO mode for transfers up to 40 Mbytes/Sec
  • Supports a half duplex FT1248 interface with a configurable width, bi-directional data bus (1, 2, 4 or 8 bits wide).
  • CPU-style FIFO interface mode simplifies CPU interface design.
  • Fast serial interface option.
  • FTDI's royalty-free Virtual Com Port (VCP) and Direct (D2XX) drivers eliminate the requirement for USB driver development in most cases.
  • Adjustable receive buffer timeout.
  • Option for transmit and receive LED drive signals.
  • Bit-bang Mode interface option with RD# and WR strobes
  • Highly integrated design includes 5V to 3.3/+1.8V LDO regulator for VCORE, integrated POR function
  • Asynchronous serial UART interface option with full hardware handshaking and modem interface signals.
  • Fully assisted hardware or X-On / X-Off software handshaking.
  • UART Interface supports 7/8 bit data, 1/2 stop bits, and Odd/Even/Mark/Space/No Parity.
  • Auto-transmit enable control for RS485 serial applications using TXDEN pin.
  • Operation configuration mode and USB Description strings configurable in external EEPROM over the USB interface.
  • Configurable I/O drives strength (4, 8, 12 or 16mA) and slew rate.
  • Low operating and USB suspend current.
  • Supports self powered, bus powered and high-power bus powered USB configurations.
  • UHCI/OHCI/EHCI host controller compatible.#
  • USB Bulk data transfer mode (512 byte packets in Hi-Speed mode).
  • +1.8V (chip core) and +3.3V I/O interfacing (+5V Tolerant).
  • Extended -40°C to 85°C industrial operating temperature range.
  • Compact 48-pin Lead Free LQFP or QFN package
  • Configurable ACBUS I/O pins.
  • 4 on-board LEDs / PWR, +3.3V Out, TX and RX
  • 1 2x10 20 PIN JTAG header
  • 1 2x3 6 PIN SPI 2.54mm IDC header
  • 1 SPI MISO pullup config IDC header
  • 1 Configurable TX/RX LED IDC header
  • On board 3.3V LDO
  • USB over-current protection via on-board resetable fuse.
  • Strong ESD protection on USB signals.
  • Based on the FTDI FT232H USB device.
  • Designed for FTDI MPSSE easy-to-use.
  • Free drivers for Linux.
  • Free drivers for Windows XP, Windows Vista and Windows 7
  • Support both 32 bit and 64 bit operating systems
  • Board dimension: 48.64mm X 70.61mm (1.91" X 2.78")

Board Dimensions

Tumpalite-d.gif

Board Layout

Lite-headers.png


  1. LEDs - RX/TX/PWR/+3.3V Output
  2. 2x3 standard 6 PIN 2.54mm IDC for RX/TX LED
  3. 2x3 PIN 2.54mm IDC SPI header
  4. SPI MISO pullup enable header
  5. 2x10 standard 20 PIN 2.54mm IDC JTAG connector
  6. 2x14 PIN 2.54mm IDC GPIO Pins
  7. 2x14 PIN 2.54mm IDC GPIO Pins


Connector Pinout & LEDs

Lite-leds.png


  • RX: Indicates FT232H is receiving bytes from target via serial communication channel. See 2x3 standard 6 PIN 2.54mm IDC for RX/TX LED on how to enable this.
  • TX: Indicates FT232H is transmitting bytes to target via serial communication channel. See 2x3 standard 6 PIN 2.54mm IDC for RX/TX LED on how to enable this.
  • PWR: Indicates the TUMPA Lite board is connected to USB port of the computer and FT232H's onboard voltage regulator outputs +3.3V.
  • V3.3 Out: Indicates the TUMPA Lite's onboard voltage LDO outputs +3.3V.


RX TX LED Config Header

Lite-rxtxconfig.png


This jumper header enables LED output on RX and TX. With FT232H's default configuration, AC8 is the RX led output pin, AC9 is the TX led output pin. Install a jumper on pin 1 and 3 enables RX LED. Install a jumper on pin 2 and 4 enables TX LED. If AC8 and AC9 are configured for GPIO, you need to remove jumpers on this header.


SPI Connector

Lite-spi.png


Pin # Description
1 MISO
2 Vcc (connected to on board 3.3V)
3 SCK
4 MOSI
5 CS
6 GND


SPI MISO Pullup Config Header

Lite-misopullup.png


Install a jumper on pin 2 and 3 to enable MISO pullup resistor (10K) to


20 PIN JTAG Connector

Lite-jtag.png


Pin # FT232H Pin Description
1 Not Connected Not Connected
3 AD5 nTRST
5 AD1 TDI
7 AD3 TMS
9 AD0 TCK
11 AD7 RTCK
13 AD2 TDO
15 AD4 RST
17 AD6 DBGRQ
19 AC0 DBGACK
2 Not Connected Not Connected
4, 6, 8, 10, 12, 14, 16, 18, 20 GND GND


GPIO Header 1

These pins are either power pins or directly connected to GPIO pins of FT232H.

Pin # Description
1, 2   GND
3, 4   +3.3V of TUMPA Lite's onboard LDO output.
5, 6   +5V output (From USB power)
7, 8   REST#
9, 10   AC9
11, 12   AC8
13, 14   AC7
15, 16   AC6
17, 18   AC5
19, 20   AC4
21, 22   AC3
23, 24   AC2
25, 26   AC1
27, 28   AC0

DB9 Male RS232

This connector is enabled only if RS232/TTL jumpers are on RS232-OUT, see Serial RS232/TTL level Selection Jumper


Tumpa.rs232.connector.1.pngTumpa.rs232.connector.2.png


Pin # Acronym Full name Direction Description
1 DCD Data Carrier Detect <<-- Modem connected to another
2 RxD Receive Data <<-- Receives bytes into PC
3 TxD Transmit Data -->> Transmits bytes out of PC
4 DTR Data Terminal Ready -->> I'm ready to communicate
5 SG Signal Ground Ground/GND
6 DSR Data Set Ready <<-- I'm ready to communicate
7 RTS Request To Send -->> RTS/CTS flow control
8 CTS Clear To Send <<-- RTS/CTS flow control
9 RI Ring Indicator <<-- Telephone Line Ringing

SPI Connector 1

Lite-spi.png
Pin # Description
1 MISO
2 Vcc (connected to on board 3.3V)
3 SCK
4 MOSI
5 CS
6 GND

RS232 Level 2.54mm IDC Header

This connector is enabled only if RS232/TTL jumpers are on RS232-OUT, see Serial RS232/TTL level Selection Jumper

Tumpa.rs232.connector.png

For your convenience, we added this header. This header is inter connected to the DB9 connector. The pinout is different then the pinout of DB 9 connector, however the extra pin (PIN 10) is connected to on board 3.3V power. GND pin (PIN 9) and +3.3V PIN (PIN 10) are always enabled regardless the jumpers position of Serial RS232/TTL level Selection Jumper.

This is the pinout of the RS232 level 2.54mm IDC header:


Pin # Description
1 RI
2 DCD
3 DSR
4 CTS
5 RX
6 TX
7 RTS
8 DTR
9 GND
10 +3.3V

20 PIN JTAG Connector

Tumpa.jtag.connector.1.png
Pin # Description
1 VTAR
3 nTRST
5 TDI
7 TMS
9 TCK
11 RTCK
13 TDO
15 RST
17 DBGRQ
19 DBGACK
2 Not Connected
4, 6, 8, 10, 12, 14, 16, 18, 20 GND


MAX3243 Auto Power Down Jumper

Tumpa.auto.power.down.max3243.1.png

This jumper controls whether to always enable MAX3243 or let FT2232H automatically enables it (save power).

  • Jumper on PIN 1 and PIN 2: Always enable MAX3243
  • Jumper on PIN 2 and PIN 3: FT2232H (PWREN, PIN 60)controls when to enable or disable MAX3243.

Buffer Enable Jumper

Tumpa.buff.enable.connector.1.png

This jumper controls whether to software enable/disable buffer chip (74LVC16T254).

  • Jumper on PIN 1 and PIN 2: Enable (Low)/Disable (High) 74LVC16T245 via FT2232H's ACBUS3 (PIN 29).
  • Jumper on PIN 2 and PIN 3: Always enable 74LVC16T245

Buffer Chip Power Selection Jumper

Tumpa.vtar.sel.connector.1.png

This jumper controls how to power the buffer / voltage translator chip (74LVC16T245)

The 74LVC16T245's Vcc(A) is connected to on board +3.3V. You can either power the Vcc(B) using on board +3.3V or powered by the target board. If powered by target board, please make sure the target board's power is in the range of +1.8V - +5.5V.

  • Jumper on PIN 1 and PIN 2: Power the buffer chip 74LVC16T245's Vcc(B) via the on board +3.3V source.
  • Jumper on PIN 2 and PIN 3: Power the buffer chio 74LVC16T245's Vcc(B) by target board. (PIN 3 of this header is connected to JTAG header's PIN 1)


Serial RS232/TTL level Selection Jumper

Tumpa.rs232.ttl.connector.1.png

These jumpers allows you to have serial communication at either RS232 level or TTL level.

TTL Level Serial Connector

This connector is enabled only if RS232/TTL jumpers are on TTL-OUT, see Serial RS232/TTL level Selection Jumper

Tumpa.ttl.connector.png


Pin # Description
1 Tx
2 Rx
3 RTS
4 CTS
5 DTR
6 DSR
7 DCD
8 RI
9 +3.3V
10 +5V (USB Power)
11, 12 GND

The power pins (9, 10, 11 and 12) are always connected, regardless of the jumper positions of Serial RS232/TTL level Selection Jumper.


SPI Connector 2

Tumpa.spi2.connector.1.png
Pin # Description
1 MISO
2 Vcc (connected to on board 3.3V)
3 SCK
4 MOSI
5 CS
6 GND


PWR/RX/TX LEDs

Tumpa.led.group.1.png
  • PWR: indicates the TUMPA board is connected to USB port of the computer and on board voltage regulator outputs +3.3V.
  • RX: Indicates FT2232H is receiving bytes from target via serial communication channel B
  • TX: Indicates FT2232H is transmitting bytes to target via serial communication channel B

Target Board Power LED

Tumpa.led.vtar.1.png
  • LED is ON: Target board (PIN 1 of JTAG Header) has power supply > 3.3V.
  • LED is OFF: Target board (PIN 1 of JTAG Header) has power supply < 3.3V or no power.

The VTAR can also be detected by software. If VTAR has voltage > 3.3V, ACBUS4 (PIN 30) of FT2232H will be LOW. Otherwise it will be HIGH.

Pin Connections

FT2232H 20 PIN JTAG Header SPI Header 1 DB9 Connector RS232 Level Output Header TTL Level Output Header SPI Header 2 Memo
ADBUS0 TCK SCK
ADBUS1 TDI MOSI
ADBUS2 TDO MISO
ADBUS3 TMS CS
ADBUS4 RST
ADBUS5 nTRST
ADBUS6 DBGRQ
ADBUS7 RTCK
 
ACBUS0 DBGACK
ACBUS1 Connected to nTRST pin of JTAG Header, (input)
ACBUS2 Connected to RST pin of JTAG Header, as (input)
ACBUS3 OEN Pin (enable buffer chip), active low (output)
ACBUS4 Target present pin. Detect VTAR, active low (input)
ACBUS5
ACBUS6
ACBUS7
 
BDBUS0 TX TX TX SCK
BDBUS1 RX RX RX MOSI
BDBUS2 RTS RTS RTS MISO
BDBUS3 CTS CTS CTS CS
BDBUS4 DTR DTR DTR
BDBUS5 DSR DSR DSR
BDBUS6 DCD DCD DCD
BDBUS7 RI RI RI
 
BCBUS0
BCBUS1
BCBUS2
BCBUS3 RX LED
BCBUS4 TX LED
BCBUS5
BCBUS6
BCBUS7
 
PWREN Enable MAX3243. Active low (output)








Buy various JTAG cables for your Satellite Receiver, Cable Modem, Wireless Router, Standard Wiggler from http://www.easymg.com and http://www.diygadget.com



10 PCS, 10cm x 10cm, 2 layers prototype for $38.80 shipped!