Vertical turbine controller (vtc), Required control wiring, Drive 1 – Yaskawa iQpump1000 AC Drive Quick Start User Manual

P9-07

Lag

Fixed

Delay

P9-07

Lag

Fixed

Delay

Drive 1

Drive 1

Drive 2

Drive 2

Drive 3

Drive 3

P9-01 = 1 (Lowest Run-time)
P9-08 = 0 (Output Frequency)
P9-32 = 60.0 sec

PumpNet Control1 U1-59 bit 1:

Run as Lag Drive

PumpNet Control1 U1-59 bit 2:

Run as Lead Drive

PumpNet Control1 U1-59 bit 1:

Run as Lag Drive

PumpNet Control1 U1-59 bit 2:

Run as Lead Drive

PumpNet Control1 U1-59 bit 1:

Run as Lag Driv

e

PumpNet Control1 U1-59 bit 2:

Run as Lead Drive

Drive 3 Staged-in.

Drive 2 becomes a Lag

Drive and latches to its

current output speed.

Drive 3 is no longer needed and gets de-

staged.

Drive 2 is the Lead again.

Drive 1 follows the speed of Drive 2 again.

Output Frequency

Output Frequency

Output Frequency

Output Frequency

Output Frequency

Output Frequency

Add Freq Level P9-09

Add Freq Level P9-09

Add Freq Level P9-09

Add Freq Level P9-09

Add Freq Level P9-09

Add Freq Level P9-09

Remove Freq Level P9-13

Remove Freq Level P9-13

Remove Freq Level P9-13

Remove Freq Level P9-13

Remove Freq Level P9-13

Remove Freq Level P9-13

Start-up…

Drive 1 is the

Lead Pump.

Drive 2 Staged-in.

Drive 1 becomes a Lag

Drive and latches to its

current output speed.

Drive 1 follows the

speed of Drive 2

(Lead)

Drive 1 and Drive 2

follows the speed of

Drive 3 (Lead)

P9-33

Lag

Followr

Dtim

P9-33

Lag

Followr

Dtim

P9-32

Lag Followr Dcel

P9-32

Lag Followr Dcel

P9-32

Lag Followr Dcel

P9-05 = 3 (Follow Lead Speed)
P9-12 = 0 (Output Frequency)
P9-33 = 10.0 sec

Figure 4.15 Lag Follower Deceleration Time Switching (Enabled)

n

Vertical Turbine Controller (VTC)

Vertical turbine pumps are typically used when water needs to be pumped from deep-water wells or open bodies of water such

as rivers, lakes, irrigation canals, lifting stations, and water storage facilities. The VTC Application Preset allows the operator

to easily setup control for a wide range of pumping applications. The drive will automatically adjust pump-operating conditions

from Simplex (one pump on the drive) to multiple lag pumps as the process variables change. Control can be extended from

simple pressure regulation to adding suction and vacuum control as well.

Required Control Wiring

Most pressure transducers have current-based feedback (4 - 20 mA). The drive A2 terminal is pre-set for 4-20 mA and pre-

programmed for PI feedback (H3-10 = B). If the sensor is voltage based (0-10 V) and terminal A3 is unused, then wire the

transducer to terminal A3 and program H3-10 to F (A2 not used) and H3-06 to B (A3 PI Feedback).
When using lag pumps, the lag pump on/off control must be wired to the drive digital output terminals. The figure below

shows the drive with the pressure transducer wired into terminal A2 and 3 lag pumps wired into output relays.

4.5 iQpump Presets and Functions

188

YASKAWA TOEP YAIP1W 01B YASKAWA AC Drive - iQpump1000 Quick Start Guide