- Signal Wire Replacement in a Rugged, Industrial Housing
- Inputs and Outputs on Both Field Units
- Simple to Order, Configure, & Install
- 1 Mile Line-of-Sight Outdoor, 500 Ft Indoor Range
- Inputs: Analog (4-20 mA, 0-10 V, 0-5 V, 1-5 V), Digital, and RS-485 Modbus Communications
- Outputs: Analog (4-20 mA), Digital, and RS-485 Modbus® Communications
- Remote or Attached Antenna
- Repeaters and Directional Antennas Available
- Flanges for Wall or Pipe Mounting
- Software Available for Even Easier Setup
- NEMA 4X, IP68 Enclosure
The Precision Digital PDW30 gives you a simple, straightforward way to get an analog, discrete, or Modbus® signal from where you have it to where you need it. It’s a point-to-point wireless bridge packaged in a rugged, weather-tight housing that is designed to meet the demands of industrial installations.
The PDW30 is simple to order, simple to configure, and easy to trust with your application. Guaranteed ranges assure it will work with your application or you can send it back – no questions asked. A wireless survey tool is available for those installations that require a site survey for longer distances, making it easy to verify the setup will work the first time.
The primary unit accepts an analog, discrete, or Modbus® input and wirelessly broadcasts it to the secondary unit. The secondary unit then recreates that signal at its location. Just put the units in the field wherever you have a process signal and 24 VDC power.
Fixed or remote antenna modules as well as a wide range of accessories are available, including mounting kits, antenna-related accessories, and repeaters. The antenna may be directly attached or remotely located. High gain directional antennas are also offered.
32-character dual-line alphanumeric dot matrix LCD display with backlight (4.68mm x 2.21mm characters)
Display may be mounted at 180° from default orientation
Field selectable: 0 – 99
Four programming buttons (behind glass) or PC with PDW Manager software.
All inputs and outputs are calibrated at the factory. Recalibration is recommended at least every 12 months.
Process/ Digital I/O Display
Press the display button once to display the present analog input and output. Press the display button again to display digital I/O states.
A programmable password restricts modification of programmed settings.
12-28 VDC, 5 W max
All programmed settings are stored in non-volatile memory for a minimum of ten years if power is lost.
Operating temperature range: -40 to 65°C (display inoperable < -20 °C); Storage temperature range: -40 to 85°C; Relative humidity: 0 to 90% non-condensing
Removable screw terminal blocks accept 16 to 30 AWG wire.
Cast aluminum with glass window, 0.30% max copper content, corrosion resistant powder coating, color: blue. NEMA 4X/IP68. Two ½” NPT threaded conduit openings. One ½” NPT stainless steel conduit plug with 10 mm hex key fitting installed.
May be mounted directly to conduit. Two mounting holes for 1.5″ pipe or wall mounting. See Mounting Dimensions on page 29 for mounting space requirements.
Signal Connector Tightening Torque
2.5 lb-in (0.28 Nm)
17″ x 14″ x 9″ (43.2 cm x 35.6 cm x 22.9 cm) (L x W X H)
5 lbs. (2.27 kg)
3 years parts & labor
500 ft (152.4 m) indoor, 1 mi (1.61 km) outdoor (line-of-sight)
AES 128-bit encryption available using PDW Manager software
Frequency Hopping Spread Spectrum (FHSS)
24 dBm (250 mW)
Field selectable: 4-20 mA, 0-10 V, 0-5 V, 1-5 V
±0.03% of calibrated span ±1 count
0.005% of calibrated span/°C max from 0 to 65°C ambient,
Voltage ranges: greater than 110 kΩ; Current ranges: < 220 Ω
Inputs will remain off (open circuit) until wireless units are reconnected.
Analog input will not interfere with existing HART communications on the wired 4-20 mA signal
Isolated 4-20 mA Transmitter Output
Analog input from connected wireless unit
Factory calibrated: 4.000 to 20.000 = 4-20 mA output
± 0.1% of span ± 0.004 mA
0.4 µA/°C max from 0 to 65°C ambient, 0.8 µA/°C max from -40 to 0°C ambient
mA output will become 3.2 mA after approx. 25 seconds
Output Loop Resistance
Digital Input / Output Terminal
Four (4) digital connections, independently field selectable as either inputs or outputs
Digital Input Logic High
3 to 5Vdc, TTL logic level
Digital Input Logic Low
0 to 1.1 VDC
Digital Output Logic High
3 to 5 VDC
Digital Output Logic Low
0 to 0.4 VDC
10 mA maximum output current
1.5 mA minimum input current
Digital output goes to logic high
|Note: A closed dry contact can be used for the digial inputs.|
RS-485 Modbus® RTU Serial Communications
Removable screw terminal connector
3,937′ (1,200 m) max
1200 – 57,600 bps
8 bit (1 start bit, 1 or 2 stop bits)
Even, Odd, or None with 2 stop bits
0.5, 1, 2, 3, 4, 5 seconds; user selectable
PDW Manager Software
Microsoft® Windows® XP/Vista/7/8/10
USB 2.0 (Standard USB A to Micro USB B)
Configure devices one at a time
The diagram below shows the locations of screw terminal blocks on the rear of the wireless field unit assembly.
Power connections are made to a two-terminal connector labeled POWER. The PDW30 is reverse polarity protected; it will not be damaged if wired backwards. Make sure that the power supply can provide between 12 and 28 VDC to the wireless device.
Power PDW30 and 2-Wire Transmitter from Same Power Supply
The PDW30 wireless units may be powered from the same power supply that powers the 2-wire (loop-powered) transmitter, assuming that the supply provides enough voltage for both units. To power both devices from the same supply, wire the devices to the supply as shown below.
The analog input may be either 4-20 mA, 0-10 V, 0-5 V, or 1-5 V. The appropriate input type must be programmed for each unit.
4-20 mA Output Connector
The 4-20 mA output corresponds with the analog input signal on the paired wireless device. The analog output signal is always 4-20 mA, regardless of the input type on the other wireless module.
Digital I/O Connector
All digital connections are referenced to ground. The primary unit digital I/O settings determine the settings of the secondary unit. (e.g. if DI of the primary is an input, DI of the secondary is an output)
Note: Each connection may be set independently in the device settings as either an input or an output. In the diagram to the right, D4 & D3 are digital inputs and D2 is a digital output.
PDW Manager Programming Software
Programming with PDW Manager
PDW Manager allows you to program the PDW30 wireless units from a PC with a USB connection. Units connect to a PC via the micro USB connection on their face, underneath the enclosure cover. Use of PDW Manager is required for programming advanced settings such as wireless encryption and analog signal calibration.
PDW Manager can be found on the included CD or downloaded from www.predig.com/PDWManager. Once the software is running, power the unit using a 12/28 VDC power supply and connect the device to the PC using the provided USB cable.
The PC will automatically install the appropriate device drivers. Once this has completed, the device will appear in the Device list at the top of the PDW Manager window. Click Connect.
The menu options displayed will vary depending on what type of unit is connected. The PDW30 primary unit will have more options than the secondary unit. The image below shows the available options on the configuration tab while the primary unit is connected.
The devices’ analog inputs and outputs can be calibrated using the Calibration tabs. The IO Testing tab allows you to perform diagnostics and testing on the units.
Calibration – Analog Input
Calibration – 4-20mA Output
Device communication can be secured by enabling 128-bit AES encryption. A channel mask may also be set for interference immunity. The encryption key and channel mask may be entered on the Advanced tab.
Once you have entered the encryption information, click Save Settings. The wireless devices must share identical encryption keys in order to communicate, so be sure to enter the same information for the second unit.
This simple example demonstrates how the PDW30 may be used to wirelessly bridge an analog signal. Because the PDW30 can input and output a 4-20 mA signal, it is ideal for integration into existing 4-20 mA systems.