TS-1700: Difference between revisions
(→Holding Registers: reworded explanation of 0x79 bit 8 functionality.) |
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| Temperature Sensor IO Override register. Bits 7:0 = port 7:0. Bitwise value of 1 = temp sensor, 0 = IO. <br>Writing 1 to bit 8 will start configuration. Bit 9 is set by the TS-1700 to indicate configuration complete. <br>This register overrides register 121 (0x79). | | Temperature Sensor IO Override register. Bits 7:0 = port 7:0. Bitwise value of 1 = temp sensor, 0 = IO. <br>Writing 1 to bit 8 will start configuration. Bit 9 is set by the TS-1700 to indicate configuration complete. <br>This register overrides register 121 (0x79). | ||
| 0x140 = port 6 temperature sensor, ports 8, 5:0 defined by holding register 0x79, begins | | 0x140 = port 6 temperature sensor, ports 8, 5:0 defined by holding register 0x79, begins device operation. Register read will return 0x240 when new configuration is in effect. | ||
|- | |- | ||
| 0x7b | | 0x7b |
Revision as of 17:07, 21 January 2014
Released Feb. 2013 | |||
Product Page | |||
Documentation | |||
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Schematic | |||
Mechanical Drawing | |||
FTP Path | |||
DIO | |||
8 | |||
External Interfaces | |||
2x RJ45 Modbus | |||
Power Requirements | |||
12-24V | |||
Operates around ?? | |||
Operating Temperature | |||
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Mechanical | |||
140mm x 102mm | |||
Height 35mm (approx without baseboard) | |||
Weight 167 |
Overview
The TS-1700 is a modbus peripheral device which brings out 8 DIO, or 8 one wire temperature sensors.
Getting Started
Power Requirements
The TS-1700 will operate via minimum 10VDC on either Modbus port. Incoming power on the Modbus port is passed as an active power rail on the other Modbus port. Do not apply incoming power to both Modbus ports.
Features
TS Modbus Support
When using all Technologic Systems Modbus devices we include functionality to create an arbitrary chain of stock peripherals to automatically enumerate all connected devices, configure them them, and generate an I/O map of all connected devices.
TS Modbus Autoconfiguration
The autoconfiguration works by using the optional mode pin on the RJ45 connector as designated in the MODBUS-2W standard. Technologic Systems uses this to indicate if it is a TS device. If it is asserted (low) to a TS device, then it will allow access to the #Holding Registers at address 0xfe. Normally 0xfe is not a valid address in Modbus, so this will not interfere with other devices.
This will identify the TS Modbus device model and revision, set the first device in the chain to 0x80, and then asserts the mode line to the next port to enumerate the next device. The next device address is set to 0x81, and they continue to increment 1 until no slave responds to the mode line indicating that all salve devices have been discovered. At this point the last device in the chain is configured to enable termination on the RS485 link, and all devices have their speed bumped up to 1M baud.
One-Wire Temperature Sensors
The TS-1700 supports any temperature sensor using the Maxim DS18B20 IC.
Temperature Range | -55C to 125C |
---|---|
Resolution | 0.0625 degrees |
Update Rate | 750ms |
Accuracy | Maximum error 0.5 degree from -10C to 85C. The maximum is 2 degrees for the full -55C to 125C. |
Maximum Sensor Cable Length | Greater than 350 feet |
Register Interface
Holding Registers
The holding registers include various settings such as the configurable Modbus Address, termination enable, and more. These settings are common to all of our Modbus peripherals, and can be stored in flash to persist between power cycles.
NOTE: ASCII mode communication is not presently supported on the TS-1700. The device will expect RTU communications.
Address (hex) | Address (dec) | Access | Description | Example Values |
---|---|---|---|---|
0x70 | 112 | Read/Write | Modbus Mode | 0 = ASCII, 1 = RTU |
0x71 | 113 | Read/Write | RS485 Bus Termination Enable | 0 = No termination, 1 = enable termination |
0x72 | 114 | Read/Write | Modbus Device Address | 0-65535 |
0x73 | 115 | Read/Write | Modbus baud rate | Baud Rate |
0x74 | 116 | Read Only | Unit Model | TS-1700 |
0x75 | 117 | Read Only | Verilog Version | 1 |
0x76 | 118 | Read Only | ZPU Version | 1 |
0x77 | 119 | Read Only | Power Supply in millivolts | 24000 |
0x78 | 120 | Read Only | Internal Temperature in 1/100th degree Celsius | 22000 |
0x79 | 121 | Read/Wrtie | 8 bit IO Direction register: Bits 7:0 = port 7:0. Bitwise value of 1 = input, 0 = output. | 0xAA = Alternating input (ports 0, 2, 4, 6), and output (ports 1, 3, 5, 7). |
0x7a | 122 | Read / Write | Temperature Sensor IO Override register. Bits 7:0 = port 7:0. Bitwise value of 1 = temp sensor, 0 = IO. Writing 1 to bit 8 will start configuration. Bit 9 is set by the TS-1700 to indicate configuration complete. This register overrides register 121 (0x79). |
0x140 = port 6 temperature sensor, ports 8, 5:0 defined by holding register 0x79, begins device operation. Register read will return 0x240 when new configuration is in effect. |
0x7b | 123 | Read Only | Reserved | N/A |
0x7c | 124 | Read Only | Reserved | N/A |
0x7d | 125 | Read/Write | Write value to pogrom configuration:
Set to 0xfeed to write configuration parameters to firmware. Set to 0xdead for full reset to default configuration (erases firmware settings). Set to 0xc0de for temporary configuration (resets to firmware saved settings on power cycle). In all cases the value is set to zero when completed. |
0xFEED = Write configuration to storage, 0xDEAD = Erase configuration storage, 0xC0DE apply configuration but don't write to storage. |
Operating (holding) Registers
Address (hex) | Address (dec) | Access | Description |
---|---|---|---|
0x0 | 0 | Read Only | Port 0 1-wire temperature data [1] |
0x1 | 1 | Read Only | Port 1 1-wire temperature data [1] |
0x2 | 2 | Read Only | Port 2 1-wire temperature data [1] |
0x3 | 3 | Read Only | Port 3 1-wire temperature data [1] |
0x4 | 4 | Read Only | Port 4 1-wire temperature data [1] |
0x5 | 5 | Read Only | Port 5 1-wire temperature data [1] |
0x6 | 6 | Read Only | Port 6 1-wire temperature data [1] |
0x7 | 7 | Read Only | Port 7 1-wire temperature data [1] |
0x8 | 8 | Read Only | DIO Input data [2] |
0x9 | 9 | Read Only | DIO Output pins [3] |
0x0a | 10 | Read Only | 4 button inputs (unimplemented) [4] |
0x77 | 119 | Read Only | Device Power Supply in millivolts |
0x78 | 120 | Read Only | Device temperature in 1/100th degrees Celsius |
0x79 | 121 | Read/Write | DIO direction and configuration [5] |
0x7a | 122 | Read/Write | DIO Port DIO or Temp [6] |
- ↑ 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 The temperature is read in 1/100th degrees Celsius. The temperature is only readable when the sensor is connected and the DIO port is configured to read from the sensor (0x7a).
- ↑ The input values are reflected in each bit for the DIO that are configured as inputs. DIO not configured as an input will be 0
- ↑ The bits in the return value will correspond with the pin configuration at 0x121 to show which pins are configured as outputs
- ↑ Bits 0-3 of the return value correspond with the 4x optional membrane buttons on the outside of the case. The return value is already debounced, and will indicate with a 1 if the button is pressed.
- ↑ See this section for more details on this register
- ↑ >The bits in the return value will correspond with the DIO to set as a DIO (0), or a temperature sensor (1).
Baud Rate
The TS-1700 supports 13 speeds:
Value | Baud Rate | Maximum CAT5 Cable Length |
---|---|---|
0 | 300 | 1200 meters |
1 | 600 | 1200 meters |
2 | 1200 | 1200 meters |
3 | 2400 | 1200 meters |
4 | 4800 | 1200 meters |
5 | 9600 | 1200 meters |
6 | 19.2K | 1200 meters |
7 | 38.4K | 1200 meters |
8 | 57.6K | 1200 meters |
9 | 115.2K | 800 meters |
10 | 230.4K [1] | 400 meters |
11 | 460.8K [1] | 200 meters |
12 | 1040K [1] | 100 meters |
Connectors
2x RJ45
Both RJ45 ports, and all of our Modbus based devices are designed to be compatible with 2W-MODBUS RJ45 following this pinout:
16 Pin Terminal Block
The terminal block is a removable connector that includes 5V digital I/O. Every '+' pin is configurable using the Modbus registers, and each pin labelled '-' is connected to ground.
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.