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Summary of Contents for Triacta PowerHawk 6320
- Page 1 PowerHawk 6320 High Density Meter Installation Guide...
- Page 2 Triacta products are intended for commercial uses. The customer hereby agrees that the use, sale, licence or other distribution of the products for any such application without the prior written consent of Triacta, shall be at the customer's sole risk. The customer hereby agrees to defend and hold...
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Page 3: Table Of Contents
Installing the reference voltage cable and power cable in a 120/240V application ..8 Using the auxiliary power input ..................11 Installing the current transformers ................12 Using 5A CT converters with the PowerHawk 6320 meter .......... 15 Connecting the phone line ................... 16 Connecting the Ethernet cable ..................16 Connecting pulse inputs .................... -
Page 4: Triacta Power Technologies Powerhawk
Triacta Power Technologies PowerHawk 6320 Table of Contents... -
Page 5: Powerhawk 6320 Meter Installation Guide
Ethernet ports for remote reporting Front panel display As shown in Figure 1, the PowerHawk 6320 has the following front panel features: • LCD - displays 2 rows of 16 characters for each of the 20 meters •... - Page 6 Triacta Power Technologies PowerHawk 6320 Figure 1: PowerHawk front panel PowerHawk 6320 Meter Installation Guide...
- Page 7 Triacta Power Technologies PowerHawk 6320 Table 1 lists the system specifications of the PowerHawk 6320 high-density meter. Table 1: PowerHawk 6320 specifications Specification Description Dimensions Height: 16 in. (40.6 cm) Width: 10 in. (20.3 cm) Depth: 2 in. (5.1 cm) Weight 5.5 lb (2.5 kg)
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Page 8: Installation
Note: The current transformers supplied by Triacta are certified, and comply with national electrical codes. When you receive your order, verify that the items listed above are included with the shipment, and visually inspect them for damage. If any parts are missing or damaged, contact your Triacta representative. Installation... -
Page 9: Site Planning
Triacta Power Technologies PowerHawk 6320 The installer must provide the following tools and equipment before proceeding with the installation: • an appropriate breaker for the type of panel: single-, poly-, or three-phase depending on the installation, or a fused disconnect switch •... -
Page 10: Installation Procedures
“Using the auxiliary power input” on page 11 “Installing the current transformers” on page 12 “Using 5A CT converters with the PowerHawk 6320 meter” on page 15 “Connecting the phone line” on page 16 “Connecting pulse inputs” on page 16 “Connecting the Ethernet cable”... - Page 11 Triacta Power Technologies PowerHawk 6320 Voltage transformers must be mounted in a listed electrical enclosure. Mount the voltage transformer enclosure between the supply voltage and the PowerHawk. Transformer configuration must be Y||Y. Figure 2 shows a block diagram of a complete three-phase 4-wire installation.
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Page 12: Installing The Reference Voltage Cable And Power Cable In A 120/240V Application
(single-phase, poly-phase, or three-phase). The PowerHawk 6320 is shipped from the factory with shorting wires in the auxiliary power inputs that power the unit from the reference voltage inputs. The following procedures explain how to connect the reference voltage inputs for each of the service types. - Page 13 Triacta Power Technologies PowerHawk 6320 For a single-phase panel (see Figure 3), connect: • PowerHawk A terminal to breaker phase A (red wire) • PowerHawk B terminal to breaker phase B (black wire) • PowerHawk neutral terminal to neutral bar in panel (white wire) •...
- Page 14 Triacta Power Technologies PowerHawk 6320 For a three-phase wye panel (see Figure 4), connect: • PowerHawk A terminal to breaker phase A (red wire) • PowerHawk B terminal to breaker phase B (black wire) • PowerHawk C terminal to breaker phase C (blue wire) •...
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Page 15: Using The Auxiliary Power Input
Triacta Power Technologies PowerHawk 6320 Using the auxiliary power input The PowerHawk comes equipped with an auxiliary power input that can be used to power the system independently from the reference voltage inputs described in the previous section. Because the default configuration for powering the unit is through the reference voltage inputs, the system is configured at the factory with shorting wires on the auxiliary power input. -
Page 16: Installing The Current Transformers
Triacta Power Technologies PowerHawk 6320 Installing the current transformers The mA solid-core current transformers (CTs) are connected directly to the CT cables. When using a 5A CT adaptor, the adaptor is connected to the CT cable and the 5A CT is connected to the adaptor. - Page 17 CT probe pair, white CT wire to the second half of the CT probe pair. See Table 3 for the list of probe colour pairs for the PowerHawk 6320 high-density meters. Switch the breaker off for the circuit being installed and remove the feed wire. Place the CT over the wire and reconnect to the breaker.
- Page 18 Triacta Power Technologies PowerHawk 6320 Table 3: Colour pair identification for PowerHawk 6320 high-density meters Cable 1 Connect Black Connect White Cable 2 Connect Black Connect White Pairs CT lead to: CT lead to: Pairs CT lead to: CT lead to:...
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Page 19: Using 5A Ct Converters With The Powerhawk 6320 Meter
It is recommended that 5A converters and shorting devices be installed in a sealable metal enclosure. To connect the 5A CT to the converter on the PowerHawk 6320, follow these steps: Connect the X1 lead of the 5A CT to the shorting device. -
Page 20: Connecting The Phone Line
Connecting pulse inputs The pulse input on the PowerHawk 6320 can be used to count and report pulses generated by another meter (pulsing device). Connect the output of the pulsing device to PIN 2 and PIN 3 of the “pulse in” terminal blocks in the PowerHawk 6320 meter, as shown in Figure 8. -
Page 21: Start-Up Sequence For The Powerhawk 6320 Meter
Once the internal configuration is complete, the display will show default information for the first meter The initial report To manually force the PowerHawk to report to the Triacta Data Centre, perform the following: Press and hold the Display button for 5 to 7 seconds until diagnostics mode is displayed, then release. -
Page 22: Display Navigation
Triacta Power Technologies PowerHawk 6320 Display navigation The PowerHawk has three buttons to control the information presented on the LCD. The display has a normal and a diagnostics mode. The PowerHawk starts in normal mode, and will enter diagnostics mode when the Display button is pressed and held for 5 seconds. To adjust the contrast, hold down the Display button, and use the right and left arrow buttons to increase and decrease the contrast respectively. - Page 23 Triacta Power Technologies PowerHawk 6320 In Diagnostics mode, the right and left arrow buttons scroll the display from meter 1 through N. When the local IP address is shown on the LCD, use the right and left arrow buttons to scroll through the following information: •...
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Page 24: Recording The Meter Map
The final step in the installation process is to record the mapping of the meters to the probe points. Table 4 shows an example of a completed circuit map. Table 5 is to be completed and returned for input to the Triacta database. A copy of Table 5 is provided with each PowerHawk 6320. - Page 25 Triacta Power Technologies PowerHawk 6320 Installation Record Distributor: Customer: Address: Postal code: Phone number: Installation date: Installer name: PowerHawk serial number: PowerHawk MAC: Table 5: Probe to circuit map Probe Phase Brkr Description Description Brkr Phase Probe Installation...
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Page 26: Regulatory Compliance
Triacta Power Technologies PowerHawk 6320 Regulatory Compliance The PowerHawk must be installed by a certified electrician with knowledge of local safety regulations. Initial installation of the unit, and any subsequent modification to the unit, must be inspected by the local electrical safety authority. -
Page 27: Avis De Conformité Aux Normes D'industrie Canada
If necessary, wipe with a clean cloth. Equipment servicing Individual components are not user-serviceable, and must be returned to Triacta for repair. If an equipment fault occurs, do not attempt to repair the faulty component. - Page 28 Triacta Power Technologies PowerHawk 6320 Table 7: Graphical symbols that appear on equipment Symbol Description Indicates the supply wire protective earth, also known as chassis ground, for the secondary or feedthrough ground. Indicates the supply wire protective earth, also known as chassis ground, for the primary ground.
- Page 29 Triacta Power Technologies PowerHawk 6320 Index PowerHawk, 3 Measurement, 3 120 V/240 V measurement accuracy install reference voltage cable and power cable, PowerHawk, 3 measurement category 5A CT converters PowerHawk, 3 installing, 14 meter map recording, 20 audience, 1 NVM storage...
- Page 30 Triacta Power Technologies PowerHawk 6320 Pulse, 3 lighting, 5 pulse inputs power, 5 connecting, 16 specifications PowerHawk, 3 system description reference input voltage PowerHawk, 1 PowerHawk, 3 reference voltage cable and power cable installation 120 V/240 V application, 8 usage environment...
- Page 32 Carleton Place, Ontario Canada K7C 3T2 www.triactapower.com Triacta Power and the Triacta logo are trademarks of Triacta Power Technologies Inc. Other trademarks that may be used in this document are property of their respective owners. ©Triacta Power Technologies Inc., 2004-2013 Printed in Canada Part number 930-103-01-C.00...
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