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17

Airflow-IQ Start-up & Commissioning Guide

Primary Probe Wiring

Figure 15: Primary Probe Wiring

Analog Output

1 .  Carefully remove the top of the Phoenix Contact

®

 screw terminal connector and insert the wires . Tighten the 

terminals and reconnect them to the controller board .

2 .  Connect the 4 to 20 mA analog flow output (A01: Pos and Com) and the 4 to 20 mAanalog output factory default 

temperature (A02: temperature output) from the primary probe to a building automation system .

Note: 

The factory default flow output is A01 . Either output A01 or A02 can be configured for temperature or flow, 

or both can be configured for temperature and flow .

Probe Network

Connect the Shield, D+,and D- from the primary to the ancillary probe or remote display using the approved  
communications wire . A03 is not used at this time .

Note:

 The two D- and D+ connections are electrically identical .

BACnet

®

 Output

1 .  Carefully remove the top of the Phoenix Contact

®

 screw terminal connector and insert the wires . Tighten the 

terminals and reconnect them to the controller board .

2 .  Connect the BACnet® output (A- and B+) from the primary probe to a BACnet network .

Note:

 The two A- connections and the two B+ connections are electrically identical .

3 .  Connect the shield wire from the primary probe to the Shield terminal . The shield only connects on the output end .

Note:

 The Shield is connected on one end of each wire run and should never be connected on both ends of one wire .

IMPORTANT: 

The primary probe provides two 4 to 20 mA signals to building automation systems . Do not apply 

loop power to this probe . The system requires a two-wire power connection and separate two-wire connections 
for each analog output . Analog signal outputs are isolated from power .

preliminary—this information may change

TDP05K Advanced Thermal Dispersion Probe Airflow Measuring System Installation Instructions

12

Ruskin—CONFIDENTIAL

Wiring Connections

Primary Probe Wiring

Analog Output

1. Carefully remove the top of the Phoenix Contact® screw terminal connector and insert the wires. Tighten the

terminals and reconnect them to the controller board.

2. Connect the 4 to 20 mA analog flow output (A01: Pos and Com) and the 4 to 20 mA analog output factory

default temperature (A02: temperature output) from the primary probe to a building automation system.

Note: The factory default flow output is A01. Either output A01 or A02 can be configured for temperature or flow, 

or both can be configured for temperature and flow.

Probe Network

Connect the Shield, D+, and D- from the primary to the ancillary probe or remote display using the approved 

communications wire.

BACnet® Output

1. Carefully remove the top of the Phoenix Contact screw terminal connector and insert the wires. Tighten the

terminals and reconnect them to the controller board.

2. Connect the BACnet® output (A- and B+) from the primary probe to a BACnet network.

IMPORTANT: Do not run the probe wiring in the same conduit as AC power wiring or with wiring used to supply 

highly inductive loads, such as motors, contactors, and relays. Fluctuating, erratic, and inaccurate signal levels 

are possible when AC power wiring is present in the same conduit as the signal lines. Run the wiring away from 

variable frequency drives and broadcast antennas.

IMPORTANT: The primary probe provides two 4 to 20 mA signals to building automation systems. Do not apply 

loop power to this probe. The system requires a two-wire power connection and separate two-wire connections 

for each analog output. Analog signal outputs are isolated from power.

Figure 15:  Primary Probe Wiring

1

Table 5: Primary Probe Features
  Callout 

Feature 

Description

  1

 

Reset 

Cycles power to the device without unplugging it

preliminary—this information may change

TDP05K Advanced Thermal Dispersion Probe Airflow Measuring System Installation Instructions

12

Ruskin—CONFIDENTIAL

Wiring Connections

Primary Probe Wiring

BACnet® Output

1. Carefully remove the top of the Phoenix Contact screw terminal connector and insert the wires. Tighten the

terminals and reconnect them to the controller board.

2. Connect the BACnet® output (A- and B+) from the primary probe to a BACnet network.

IMPORTANT: Do not run the probe wiring in the same conduit as AC power wiring or with wiring used to supply 

highly inductive loads, such as motors, contactors, and relays. Fluctuating, erratic, and inaccurate signal levels 

are possible when AC power wiring is present in the same conduit as the signal lines. Run the wiring away from 

variable frequency drives and broadcast antennas.

IMPORTANT: The primary probe provides two 4 to 20 mA signals to building automation systems. Do not apply 

loop power to this probe. The system requires a two-wire power connection and separate two-wire connections 

for each analog output. Analog signal outputs are isolated from power.

Figure 15: Primary Probe Wiring

Note: The two A- connections and the two B+ connections are electrically identical.”

preliminary—this information may change

TDP05K Advanced Thermal Dispersion Probe Airflow Measuring System Installation Instructions

12

Ruskin—CONFIDENTIAL

Wiring Connections

Primary Probe Wiring

Analog Output

1. Carefully remove the top of the Phoenix Contact® screw terminal connector and insert the wires. Tighten the

terminals and reconnect them to the controller board.

2. Connect the 4 to 20 mA analog flow output (A01: Pos and Com) and the 4 to 20 mA analog output factory

default temperature (A02: temperature output) from the primary probe to a building automation system.

Note: The factory default flow output is A01. Either output A01 or A02 can be configured for temperature or flow, 

or both can be configured for temperature and flow.

Probe Network

Connect the Shield, D+, and D- from the primary to the ancillary probe or remote display using the approved 

communications wire.

1. Carefully remove the top of the Phoenix Contact screw terminal connector and insert the wires. Tighten the

terminals and reconnect them to the controller board.

2. Connect the BACnet® output (A- and B+) from the primary probe to a BACnet network.

IMPORTANT: Do not run the probe wiring in the same conduit as AC power wiring or with wiring used to supply 

highly inductive loads, such as motors, contactors, and relays. Fluctuating, erratic, and inaccurate signal levels 

are possible when AC power wiring is present in the same conduit as the signal lines. Run the wiring away from 

variable frequency drives and broadcast antennas.

IMPORTANT: The primary probe provides two 4 to 20 mA signals to building automation systems. Do not apply 

loop power to this probe. The system requires a two-wire power connection and separate two-wire connections 

for each analog output. Analog signal outputs are isolated from power.

Figure 15: Primary Probe Wiring

Airflow-IQ Start-up & Commissioning Guide 

16

Analog Output

1. Carefully remove the top of the Phoenix Contact® screw terminal connector and insert the wires. Tighten the

terminals and reconnect them to the controller board.

2. Connect the 4 to 20 mA analog flow output (A01: Pos and Com) and the 4 to 20 mA analog output factory

default temperature (A02: temperature output) from the primary probe to a building automation system.

Note:

 

The factory default flow output is A01. Either output A01 or A02 can be configured for temperature or flow, 

or both can be configured for temperature and flow.

Probe Network

Connect the Shield, D+, and D- from the primary to the ancillary probe or remote display using the approved 

communications wire.  A03 is not used at this time.

Note:

 The two D- and D+ connections are electrically identical.

BACnet® Output

Table 5: Primary Probe Features

 Callout 

Feature 

Description

  1 

Reset 

Cycles power to the device without unplugging it

Содержание AIRFLOW-IQ

Страница 1: ...Start up Commissioning Guide Model AIRFLOW IQ Electronic Air Measuring Station with BACnet Actuator and Class 1A Damper ALL STATED SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT PRIOR NOTICE OR OBLIGATI...

Страница 2: ...ation Guidelines 5 Construction Details 6 Ideal Installations Air Measurement Station Placements 7 8 Actuator Product Description 9 BACnet Enabled Factory Supplied Controller 9 10 Log on to Actuator 1...

Страница 3: ...lable at www Ruskin com at this URL http www ruskin com catalog servefile id 6766 or via this QR Code APPLICATIONS Ruskin model AIRFLOW IQ is a turn key solution that combines the features of Ruskin s...

Страница 4: ...mponents carrying hazardous voltage can cause electric shock and may result in severe personal injury or death Risque de d charge lectrique D brancher l alimentation avant de r aliser tout branchement...

Страница 5: ...g the damper After the damper is installed the shaft location cannot be changed without removing the damper The jackshaft when pres ent will always be in the leaving air stream The AIRFLOW IQ has a sp...

Страница 6: ...1 8 1 8 1 8 1 8 1 8 1 8 1 8 1 8 16 406 2 2 2 2 2 2 2 2 2 3 2 3 2 3 1 6 1 6 1 8 1 8 1 8 1 8 1 8 1 8 1 8 1 8 1 8 1 8 18 457 2 2 2 2 2 2 2 2 2 3 2 3 2 2 2 2 1 8 1 8 1 8 1 8 1 8 1 8 1 8 1 8 1 8 1 8 1 8 2...

Страница 7: ...y sampling uncertainty can be reduced by adding more sensors and when necessary more probes to help compensate for locations that do not have sufficient spacing between upstream and downstream obstruc...

Страница 8: ...ontrol Mode To operate the Airflow IQ as a modulating damper change the DamperMode BACnet data point see Table 1 from CurrentAirflow to DamperPosition Manual Override Close Damper manual override clos...

Страница 9: ...9 Airflow IQ Start up Commissioning Guide Field power wiring use 18 ga wire or 16 ga if over 25...

Страница 10: ...en the network interface is not used Direct Position Control is possible via BACNET or Analog Input corresponding to Percent input FEATURES Setup via integrated Web Server and Ethernet IP connection d...

Страница 11: ...way 192 168 0 1 Configuring the air measurement actuator requires logging on to it with a laptop using Google Chrome Make sure the lap top s WiFi is turned off to avoid a problem In the address bar a...

Страница 12: ...to DDC Setpoint BACnet or 0 10VDC Input Actuator Modulates to Maintain Flow Setpoint BACnet MS TP or IP allows Monitoring and Con guraIon Ruskin VAFB24 BAC RAMS Actuator WEB Interface Actuator Reads...

Страница 13: ...Current Airflow Rate Setpoint AI 2 cfm Airflow Current Airflow Rate AI 3 R cfm AirVelocity Current Air Velocity AI 4 R fpm DamperPosition Damper Position Feedback AI 5 R pct DpReading Differential Pr...

Страница 14: ...e device BACnet Device Address IP Address settings MS TP Address is done via the integrated web server BACnet Standard Device Profile BACnet Application Specific Controller B ASC BACnet Interoperabili...

Страница 15: ...Analog Output Description Present_Value Analog Value Description Present_Value Binary Input Description Active_Text Inactive_Text Binary Output Description Present_Value Active_Text Inactive_Text Reli...

Страница 16: ...inimum bend radius of 3 5 in 89 mm IMPORTANT Do not run the probe wiring in the same conduit as AC power wiring or with wiring used to supply highly inductive loads such as motors contactors and relay...

Страница 17: ...ONFIDENTIAL Wiring Connections Primary Probe Wiring BACnet Output 1 Carefully remove the top of the Phoenix Contact screw terminal connector and insert the wires Tighten the terminals and reconnect th...

Страница 18: ...ly connects on the output end Note The Shield is connected on one end of each wire run and should never be connected on both ends of one wire Power 1 Carefully remove the top of the Phoenix Contact sc...

Страница 19: ...ades and other internal parts may need annual cleaning to avoid dirt build up MAINTENANCE Remove any foreign material Verify that hardware used to install damper does not contact moving parts of the d...

Страница 20: ...Duct Diameter Duct Area Site Elevation Relative Humidity Flow Units Output Lockout Display Configuration Select parameters for displayed data Display Filter Display Config Display Units Display Flow...

Страница 21: ...elocity2 System at Point 22 Point 2 Velocity2 System at Point 32 Point 3 Velocity2 Calculate K Factor Menu Inactivity Timeout Selects a time the device returns to normal Menu Timeout Menu Timeout oper...

Страница 22: ...n Use Automatic K factor Configuration and use 1 point calibration if only gain is required If flow is non linear use two or three point calibration feature Install additional probes to provide more s...

Страница 23: ...nting screws from the mounting plates on both sides of the thermal dispersion probe 3 Remove the lock nut and the washer from the mounting stud 4 Slide the probe out of the duct from the side with the...

Страница 24: ...1 in w g Approximate Shipping Weight 12 lb 5 4 kg for TDP05K Airflow Measuring System with two probes Measuring stations are tested at an AMCA CertifiedLaboratory using instrumentation and procedures...

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