TS-752

From embeddedTS Manuals
TS-752
Documentation
Schematic
Mechanical Drawing

Overview

The TS-752 demonstrates the flexibility of a Technologic Systems SoM by connecting FPGA driven IO pins to relays, buffered digital inputs, buffered digital outputs, and RS-485 drivers. It also provides an RS-232 driver for the serial console. A TS-ENC750 with a TS-7500 or TS-7550 can provide a complete solution for many embedded applications.

Getting Started

The TS-752 is powered using the P8 connector (8 pin terminal block) shown here. For more details about standard functionality on this board, see your ARM board page. Console is available from the DB9 connector as RS232 at 115200 baud, 8n1, and with no flow control.

TS-7500 Cavium CNS2132 250Mhz Arm9
TS-7550 Cavium CNS2132 250Mhz Arm9

Features

Host-board Recovery

Although it is easy to get a TS-7500 board into an unbootable state during development if you botch a modification, it is equally easy to use the TS-752 to recover the default startup. To do so, place the JP2 jumper on the TS-752 and reset the board. In approximately 3 seconds, the board will have fastbooted to the TS-752 flash and present a shell prompt. To recover the default initrd and linuxrc, enter the command "spisave", remove the JP2 jumper, and reboot back to a restored to factory default configuration. The procedure is identical on the TS-7550 except you use the "nandsave" command since the TS-7550 has no SPI flash onboard.

Relays

The TS-752 features 3 SPDT relays rated for 5A at 277VAC or 30VDC that the user can toggle through DIO. You can drive these DIO high or low to toggle the relays, or use the ts.subr file which lets you set a 3 bit value to control the relays.

The PCH-105D2H relay is normally open, closes in 10ms, and opens in 5ms. A very safe assumption would be that it will switch after 20ms.

# if you are in debian
. /initrd/ts7500.subr

# or if you are in initrd (may already be sourced)
. /ts7500.subr

# Disable all relays
setrelay 0x0

# Enable all relays
setrelay 0x7

Connectors

Terminal Strip Connectors

Terminal Strips

P2 (Top Connector)
Pin Relay Name Function
1 1 NO Normally Open
2 COM Common
3 NC Normally Closed
4 2 NO Normally Open
5 COM Common
6 NC Normally Closed
7 3 NO Normally Open
8 COM Common
9 NC Normally Closed
P1 (Bottom Connector)
Pin Name Function
1 BUF_IN1 DIO_40
2 BUF_IN2 DIO_38
3 BUF_IN3 DIO_36
4 BUF_IN4 DIO_34
5 BUF_IN5 DIO_32
6 BUF_IN6 DIO_30
7 BUF_IN7 DIO_28
8 BUF_IN8 DIO_26
9 GND Ground
P8 (Right Connector)
Pin Name Function
1 BUF_OUT1 DIO_33
2 BUF_OUT2
3 BUF_OUT3
4 Common Ground
5 CAN_L FPGA CAN
6 CAN_H FPGA CAN
7 +5V 5V in
8 Common Ground
Note: The OSTTJ0911530 is a compatible mate with the 9 pin terminal block. The OSTTJ0811530 is compatible with the 8 pin terminal block.

DB9 Port

DB9 Connector

Pin # Name Function
1 485_X+ XUART1 +
2 CONSOLE_RXD RS232 Console RX
3 CONSOLE_TXD RS232 Console TX
4 NC
5 GND Ground
6 485_X- XUART1 -
7 DIO_5_TXD XUART0 TX
8 DIO6_RXD2 XUART0 RX
9 NC

40 Pin Header

Note that 4 pins on the TS-7500 or TS-7550 will hang off. These include JTAG_DOUT, JTAG_TMS, JTAG_CLK, and JTAG_DIN. These are only needed for factory programming only.

  _______
 |01 | 02|
 |03 | 04|
 |05 | 06|
 |07 | 08|
 |09 | 10|
 |11 | 12|
 |13 | 14|
 |15 | 16|
 |17 | 18|
 |19 | 20|
 |21 | 22|
 |23 | 24|
 |25 | 26|
 |27 | 28|
 |29 | 30|
 |31 | 32|
 |33 | 34|
 |35 | 36|
 |37 | 38|
 |39 | 40|
 ---------
Pin # Name Function
1 DIO_05 / Mode2 Used to toggle boot device (SD / offboard flash)
2 DIO_06 XUART0_RX
3 DIO_07 Console TX
4 DIO_08 Console RX
5 DIO_09 #RESET - drive high to reset the board
6 3.3V
7 DIO_11 / CS# SPI CS#
8 DIO_12 SPI MISO
9 DIO_13 SPI MOSI
10 DIO_14 SPI CLK
11 5V
12 GND
13 DIO_17 SCL
14 DIO_18 SDA
15 DIO_19 485_TXD
16 DIO_20 485_RXD
17 DIO_21 XUART2 TX
18 DIO_22 XUART2 RX (TEMP_CS#)
19 DIO_23 CAN_TXD
20 DIO_24 CAN_RXD
21 DIO_25 XUART4 TX
22 DIO_26 BUF_IN8
23 DIO_27 485_TXEN
24 DIO_28 BUF_IN7
25 DIO_29 OUT_3
26 DIO_30 BUF_IN6
27 DIO_31 OUT_2
28 DIO_32 BUF_IN5
29 DIO_33 OUT_3
30 DIO_34 BUF_IN4
31 DIO_35 EN_RELAY1
32 DIO_36 BUF_IN3
33 DIO_37 EN_RELAY2
34 DIO_38 BUF_IN2
35 DIO_39 EN_RELAY1
36 DIO_40 BUF_IN1
37 POE_RX
38 POE_78
39 POE_45
40 POE_TX

DIO Header

  _______
 |01 | 02|
 |03 | 04|
 |05 | 06|
 |07 | 08|
 |09 | 10|
 |11 | 12|
 |13 | 14|
 |15 | 16|
 |17 | 18|
 |19 | 20|
 ---------
Pin # Name Function
1 3.3V
2 485_TXD
3 SDA
4 SCL
5 SPI MISO
6 DIO_25
7 SPI_CLK
8 485_TXEN
9 SPI_MOSI
10 CAN_TXD
11 OUT_3
12 CONSOLE_TXD
13 REBOOT#
14 DIO_21
15 DIO5_TXD2
16 OUT_2
17 NC
18 OUT_1
19 5V
20 GND

COM Ports

The XUART ports will be controlled with xuartctl. By default they will not have devices in /dev/.

Name Type Location
ttyS0 RS232 pins 3 (TX) and 2 (RX) of the #DB9 Port
XUART0 RS232 pins 7 (TX) and 8 (RX) of the #DB9 Port
XUART0 TTL pin 15 (TX Only) of the #DIO Header
XUART1 RS485 pins 1 (+) and 6 (-) of the #DB9 Port
XUART1 TTL pins 2 (TX Only) and 8 (TX Enable) of the #DIO Header.
XUART2 TTL pin 14 (TX Only) of the #DIO Header
XUART3 TTL pin 10 (TX Only) of the #DIO Header
XUART4 TTL pin 6 (TX Only) of the #DIO Header
XUART5 TTL pin 16 (TX Only) of the #DIO Header
XUART6 TTL pin 18 (TX Only) of the #DIO Header
XUART7 N/A N/A
Note: XUART3 is not used when CAN is enabled

Product Notes

FCC Advisory

This equipment generates, uses, and can radiate radio frequency energy and if not installed and used properly (that is, in strict accordance with the manufacturer's instructions), may cause interference to radio and television reception. It has been type tested and found to comply with the limits for a Class A digital device in accordance with the specifications in Part 15 of FCC Rules, which are designed to provide reasonable protection against such interference when operated in a commercial environment. Operation of this equipment in a residential area is likely to cause interference, in which case the owner will be required to correct the interference at his own expense.

If this equipment does cause interference, which can be determined by turning the unit on and off, the user is encouraged to try the following measures to correct the interference:

Reorient the receiving antenna. Relocate the unit with respect to the receiver. Plug the unit into a different outlet so that the unit and receiver are on different branch circuits. Ensure that mounting screws and connector attachment screws are tightly secured. Ensure that good quality, shielded, and grounded cables are used for all data communications. If necessary, the user should consult the dealer or an experienced radio/television technician for additional suggestions. The following booklets prepared by the Federal Communications Commission (FCC) may also prove helpful:

How to Identify and Resolve Radio-TV Interference Problems (Stock No. 004-000-000345-4) Interface Handbook (Stock No. 004-000-004505-7) These booklets may be purchased from the Superintendent of Documents, U.S. Government Printing Office, Washington, DC 20402.

Limited Warranty

See our Terms and Conditions for more details.