Unitary products group HA 300 Installation Instructions Manual Download Page 7

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035-20209-000-A-0904

Unitary Products Group

TABLE 3: PARAMETER SETTING

Parameter

Condenser Fan

Setup #1

Active setup

PSI 2

What the readout will show

CUSTOM READ [UNITS]

Main display will show system pressure

Reference (unit)

Top Left Display (drive reference: open loop = Hz; closed loop = in WG)

Frequency [%]

Top Middle Display (closed loop = actual pressure)

Motor Current (A)

Top Right Display (motor current in Amps)

100

Closed Loop

Feedback from transducer controls speed

101

AEO Function

Motor torque curve

102

1.1

Motor Power (1.1 kw = 1.5hp)

103

575

Motor Voltage

104

Motor Frequency

105

2.3

Motor Current

106

1140

Rated Motor Speed

201

20 Hz

Minimum Motor Speed Frequency

202

60 Hz

Maximum Motor Speed Frequency

204

Minimum allowable setpoint, equal to parameter 413 in closed loop

205

500

Maximum allowable setpoint, equal to parameter 414 in closed loop

206

5 seconds

Ramp up time

207

10 seconds

Ramp down time

209

---

Frequency to operate upon loss of analog input signal

210

External/preset

Reference location (external transducer)

211

Preset reference 1

212

Preset reference 2

213

Preset reference 3

214

Preset reference 4

216

Frequency bypass bandwidth

217

Frequency bypass 1 (skip 41 Hz motor speed)

300

No operation

Digital input 16

301

No operation

Digital input 17

302

Start

Jumper terminal 12 or 13 to terminal 18 to start the drive whenever

powered

303

No operation

Digital input 19

304

Coast inverse

Jumper terminal 12 or 13 to terminal 27 to enable to drive to run

305

No operation

Digital input 29

306

No operation

Digital input 32

307

No operation

Digital input 33

308

Feedback

Pressure transmitter 1 is wired to terminal 53

309

0 VDC

Transmitter voltage at minimum pressure

310

10 VDC

Transmitter voltage at maximum pressure

311

Feedback

Pressure transmitter 2 is wired to terminal 54

312

0 VDC

Transmitter voltage at minimum pressure

313

10 VDC

Transmitter voltage at maximum pressure

314

No operation

Assumes terminal 60 is not used

315

0 mA

Summary of Contents for HA 300

Page 1: ...ART NO DESCRIPTION 1 1 ea X denotes Model number needed for application 473 24615 00X VLT6000 Condenser Fan Speed Control and Enclosure 2 1 ea 025 38680 000 Pressure Transducer 3 1 ea 025 38681 000 Wire Harness Assembly 4 1 ea 025 37466 000 Power wire Harness 5 1 ea 023 20566 000 Tee Connector 6 2 ea 021 15529 000 Screw HEX 14 X 75 7 1 ea 025 10209 000 7 8 Bushing 8 2 ea 025 14284 000 1 3 8 Bushin...

Page 2: ...e 3 Perform a leak test on fittings and connections before putting the system into operation NOTE This procedure must be repeated for each sys tem 5 Attach wiring harness assembly plug to transducer See Figure 4 Route sensor wires back to VLT6000 enclosure 6 Remove VLT6000 enclosure lid 7 Pass wires through the bushing provided using knock out located in the bottom of the VLT6000 enclosure 8 Acces...

Page 3: ...conduit 1 insert three 14 Gage wires marked on both ends field supplied Conduit 2 should run from the bottom of the VLT6000 enclosure to the condensing unit con trol box using knock outs provided In conduit 2 insert shielded power cable sup plied in accessory Allow additional conduit length to remove the VLT Control enclosure from the top rail and place on side for servicing 12 Wire condenser fan ...

Page 4: ...anel and restore power to the unit 20 Verify proper unit operation A call for cooling closes the M5 contactor power ing the VLT6000 control As the discharge pres sure rises above 210 PSI during startup the VLT6000 control will increase the speed of the con denser fan accordingly The unit s scroll compressor produces a rapid rise in discharge pressure upon startup and this depending on the ambient ...

Page 5: ...0 FAN OVER LPS1 HPS1 LPS2 HPS2 HP1 LP1 BLU BLU 217 O 281 BL 216 O 214 BL P 9 S 9 SYS 1 System 1 215 BL 2 3 4 5 6 7 LAS1 284 BL 283 BL BLK BLK P 11 S 11 SYS 1 BOTTOM OF CONTROL BOARD RB1 LOW AMB FS1 FS2 1 1 1 2 3 4 5 6 7 8 9 10 FAN OVER LPS1 HPS1 LPS2 HPS2 HP2 LP2 GRA GRA 247 Y 279 GY 248 Y 249 GY P 9 S 9 SYS 2 System 2 250 GY 2 3 4 5 6 7 LAS2 286 BL 285 BL BLK BLK P 11 S 11 SYS 2 BOTTOM OF CONTROL...

Page 6: ... T3 M GND 1 2 3 4 BLK BRN PRP GRN Pressure Transducer System 1 RED WHT BLK T1 L1 T2 L2 T3 L3 VLT 6000 CONTROL TERMINALS 154 BK 155 BR 156 PR M7 1 M7 3 M7 2 P 17 S 17 FM 3 T1 T2 T3 M GND 1 2 3 4 BLK BRN PRP GRN RED WHT BLK Pressure Transducer System 2 OUTPUT POWER MOTOR TB INPUT POWER MAINS TB OUTPUT POWER MOTOR TB 91 L1 92 L2 93 L3 U 96 V 97 W 98 50 53 54 55 50 53 54 55 91 L1 92 L2 93 L3 U 96 V 97...

Page 7: ... 207 10 seconds Ramp down time 209 Frequency to operate upon loss of analog input signal 210 External preset Reference location external transducer 211 0 Preset reference 1 212 0 Preset reference 2 213 0 Preset reference 3 214 0 Preset reference 4 216 1 Frequency bypass bandwidth 217 41 Frequency bypass 1 skip 41 Hz motor speed 300 No operation Digital input 16 301 No operation Digital input 17 30...

Page 8: ...mum speed before shutting off part of sleep mode 404 Set about 1 Hertz above 201 part of sleep mode 405 Frequecy to turn back on part of sleep mode 406 413 0 psi Pressure value at minimum transducer signal 414 500 psi Pressure value at maximum transducer signal 415 PSI 2 Text string to display on the keypad 417 MAX Feedback function 418 210 psi Desired pressure to maintain 420 Inverse Control resp...

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