Installation Guide
Daintree
®
Networked General Purpose Adapter (WGA100)
2
3
2
Interface Type Descriptions
DIP Switch Settings
Figure 1: DIP switch location
Figure 2: DIP Switch Table -
See Interface Type Descriptions
for information about each option.
DIP switch settings enable the WGA100 interfaces so that it
can identify the types of devices connected to it for control,
monitoring, and wireless adaptation. Each of the DIP switches
enables a separate interface. Interfaces can be enabled in any
combination.
Configure the DIP switch settings only as shown in this instruction
for the devices that you connect to the WGA100.
After you change the DIP switch settings, you need to press the
blue Reset button for 3 seconds to reset the unit. Release the
button when the green Joined and red Error LEDs
begin flashing.
To connect a device to an interface, use the wire leads indicated in
the DIP Switch Table and in
Figure 3:
Wiring Identification.
Switch 1. Binary Output: Line voltage On/Off
(Switched Load)
This output provides up to 15A/1hp switched line voltage
(switched to Hot/Active) to the device connected to the
WGA100’s 14AWG red wire. Examples for this output may
include powering an electrical outlet, equipment bench,
contactor, pump or motor when a space is occupied, as
determined by Daintree Controls Software (DCS) configuration.
Switch 2. Binary Output: Low voltage, On/Off (LSD)
This binary output is used to open and close relays and
switches. An example would be to turn on a ventilation fan, or
energize a dry contact on a setback thermostat when a room
is occupied.
Note:
When both Switch 1 and Switch 2 are enabled, DCS
identifies the Switch 1 interface as BO1, and the Switch 2
interface as BO2.
Switch 3. Analog Output: 0-10V, level
controllable, multistate
Analog outputs control the speed or variable setting of a
device, such as a multi-speed fan, or a valve or damper actuator.
An example is a hot water valve opening up 25% to maintain a
set-point.
Switch 4. Binary Input: Low voltage (Blue wire)
A binary input indicates if a device is turned on or not. Some
examples of a binary input would be a 24VDC/AC signal from
an air flow switch, or a volt-free relay contact. Other examples
include: high or low pressure switch, high temperature safety,
thermostat, damper end switch, dirty filter switch, fan proving
switch, time clock.
Switch 5. Binary Input: Low voltage (Yellow wire)
This input has the same features as the Switch 4 Binary Input.
Note: When both Switch 4 and Switch 5 are enabled, DCS
identifies the Switch 4 interface as BI1, and the Switch 5
interface as BI2.
Switch 6. Input: 0-10V analog, multistate
Analog inputs are used to read a variable measurement.
Typical analog devices include a high or low pressure monitor,
temperature, humidity or pressure sensor, thermistor, 4-20 mA,
0-10 volt or platinum resistance thermometer (resistance
temperature detector), suction or discharge pressure transducer,
supply air temperature thermistor, supply static pressure sensor,
building pressure sensor, room temperature thermistor.
All disabled.
When all switches are Off, the WGA100 is in Range Extender
mode. It joins a ZigBee network and acts as a wireless repeater
to increase the wireless network range and/or improve reliability.
Inputs and outputs are disabled.
Binary Output: Line voltage On/Off (Switched Load)
Red (14 AWG)
Binary Output: Low voltage, On/Off (LSD)
Green (22 AWG)
Analog Output: 0-10V, level controllable, multistate
Violet (22 AWG)
Binary Input: Low voltage, binary
Blue (22 AWG)
Binary Input: Low voltage, binary
Yellow (22 AWG)
Analog Input: 0-10V, multistate
Orange (22 AWG)
All enabled
All switches On.
All inputs/outputs disabled.
All switches Off.
WGA100 is in Range Extender mode whereby it joins a network and acts only as a
wireless repeater to increase the wireless network range and/or improve reliability.
Wire Color
DIP Setting
Interface Type
Interfaces can be
enabled in any combination
DIP Switch Positions OFF
ON
