Page 4 - Instruction Manual 3
P. 4
DYNODRIVE 2
2. GENERAL NOTES
2.1 Motor Cable & Connection Header 2.3 PNP Sensor Connection Header
CAUTION: If a longer motor cable is required only use CAUTION: If the sensor is mounted on non-conductive
24” motor extension cables obtained from Dyno Ltd. equipment, such as a plastic slide, ground the body of
A maximum of two motor extension cables may be the sensor to provide a non-destructive discharge path
used. The motors maximum speed will decrease by in the event of a static electric shock.
approximately 2% for each motor extension cable used.
A 3-pin Phoenix PT1.5/3-PVH-3.5 plug is supplied.
DynoDrive® motors and controls are designed to operate Pin: Signal:
together as a complete and compatible drive system. - DC Ground
Proper care must be taken to prevent damage to the
control, motor and connection cable. IN Input From Sensor
DynoDrive® motors come with a permanent, built-in + +VDC*
power & control cable having a 20 inch cable length for Table 2: Sensor Connections Pinout
connection to compatible DynoDrive controls. See the *NOTE: The +VDC signal for the + Pin is fused with a
specific DynoDrive® motor or PowerCube™ specification 0.1 Amp self-resetting fuse. Use of this output for any
sheet for details. Do not attempt to connect the motor purpose that requires more than 0.1 Amps will cause
cable to any control other than a control supplied by the fuse to open and temporarily disable this output.
Dyno Ltd.
Do not put tension on the motor cable connection. This 2.4 Smart User Input-Output Connection
could result in intermittent motor connections. Header
The motor connector is designed to be installed on the A 7-pin Phoenix PT1.5/7-PVH-3.5 plug is supplied. The
control and then remain connected to the control for function of Smart 1 Input and Smart 2 Output depends
the life of the motor. Do not remove the motor connector on the current switch 3 settings for the control. If these
from the control except in the rare instance of motor or I/O connections are not being used, leave the connector
control replacement.
in place to avoid accidentally shorting the pins.
Power to the control and motor should be removed by
turning off or removing input power at the source (Lock- Pin: Description:
out & Tag-out preferred). Alternately, by disconnecting 1 Smart 1 Input*
the +24V DC Power Input Connection Header (see section 2 Slug Mode Input*
2.2 below) on the control. The motor connector must not
be used as a power on/off switch. 3 Reverse Slug Input*
4 Smart 2 Output
Do not disassemble the motor cable. If the motor cable
becomes damaged obtain a replacement motor. 5 Analog Input +
6 Analog Input -
2.2 +24v DC Power Input Connection 7 Zone Hold Input*
Header
Table 3: Smart/User Input-Output Pinout.
CAUTION: Power must be applied with proper polarity *NOTE: Smart I/O is active above 18 Volts DC (PNP)
to avoid potentially damaging the control. Follow the
pinout shown in Table 2: Sensor Connections Pinout.
2.5 LED Indicators
A 2-pin Phoenix PT1.2/2-PVH-3.5 plug is supplied. The
control operates off a +22 to +28 Volt DC power supply. The control board contains the following four (4) LED
The control reads the configuration switches only when feedback indicators:
the unit is powering up. Make the power connection only • One (1) Red Fuse LED
after all other connections have been made.
• One (1) Red Fault LED
Pin: Signal: • One (1) Amber Motor Current Limiting LED
+ +22 to +28 Volts DC • One (1) Green Power LED
- DC Ground To learn more, see 5.1 LED Indicators and 5.2 Firmware
Table 1: DC Power Inputs Pinout Version Display.
*NOTE: When adjacent zones are operating from 2.6 Configuration Switches
separate 24VDC power supplies you must connect their
0VDC grounds together. However, do not connect their *NOTE: The configuration switches are read only during
positive voltage terminals together. power-up. Set the switches before delivering power to
the control.
The control reads the configuration switches only when
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