Dwyer Series DCT600 User manual

Dwyer Series DCT600 User manual
E-99:DCT500 bulletin
7/8/09
8:17 AM
Page 1
BULLETIN E-99
Series DCT600 Timer Controller
Specifications – Installation & Operating Instructions
4-1/4
[107.95]
4-7/8
[123.8]
1/16
[1.59]
1/2
[12.7]
1-23/64
[34.53]
6-1/4
[158.75]
6-3/4
[171.45]
6-1/4
[156.75]
6-7/8
[174.62]
1/16
[1.59]
1/2
[12.7]
1-3/16
[30.16]
Introduction
The Series DCT600 Timer Controller is a timing system for pulse-jet type dust collectors or pneumatic conveying systems in either continuous or on-demand cleaning
applications. It provides either 4, 6,10, 22 or 32 channels. The DCT600 was designed
for ease of installation in your dust collector system. For installations requiring fewer
channels than available on the board, a shorting plug (DCT610) or dip switches
(DCT632) allows selection of the last used channel. Time-on and time-off settings are
selected using two potentiometers. High-limit and low-limit control inputs are provided for use with on-demand systems. When used in a continuous mode the high-limit
input is jumpered. For safety, the control circuitry including the control inputs and the
last channel jumper, is isolated from the power line.
DWYER INSTRUMENTS, INC.
P.O. BOX 373 • MICHIGAN CITY, INDIANA 46361, U.S.A.
8-1/4
[209.55]
8-3/4
[222.55]
SPECIFICATIONS
Output Channels: 4, 6, 10, 22 & 32 channels.
Voltage Requirements: 85 to 270 VAC (~) 50 or 60 Hz.
Power Consumption: 1.8 W.
Input Power: 302 VA max.
Load: 300 VA max, pilot rating C300.
Fuse: Type 3 AG, 3A @ 250 VAC (~).
Ambient Operation Temperature: -40 to 149°F (-40 to 65°C).
Storage Temperature: -40 to 176°F (-40 to 80°C).
Humidity Conditions: 5 to 95% noncondensing.
On Time: 50 to 500 msec.
On Time Accuracy: ±5% of setting.
On Time Repeatability: ±1 msec.
Off Time: 1 to 180 seconds.
Off Time Accuracy: 5% of setting.
Pollution Degree: 2.
Altitude: 6560 ft (2000 m) max.
Environment: Indoor use, must be installed in a weather-proof enclosure for outside applications.
Weight: 9 oz (255 g).
Agency Approvals: UL, cUL, CE.
Phone: 219/879-8000
Fax: 219/872-9057
www.dwyer-inst.com
e-mail: [email protected]
E-99:DCT500 bulletin
7/8/09
8:17 AM
Page 2
Installation
Warning: Always install and service this device with the power off
and a lockout installed if required. Line voltages are exposed on the
board. As a result, this device is not intended to be installed in any open
location. It must be installed within an enclosure that meets appropriate
safety and local code requirements. Follow applicable safety procedures when installing or servicing this product.
Warning: Always replace the fuse with the proper type and rating.
The fuse is Type 3 AG fast acting 3 Amp @ 250V. DO NOT use slowblow type fuses. Failure to comply with this requirement will pose a serious safety risk and will void manufacturer’s warranty.
As a permanently installed piece of equipment, a power disconnect
switch, circuit breaker, or other approved disconnect device must be
installed in close proximity to the installed board and within easy reach
of the operator. This disconnect device must include a label indicating
its function as a mains disconnect.
Power Requirements
The controller is designed for operation on either 120 VAC or 240 VAC 50/60 Hz
power. The input voltage must be between 85 VAC and 270 VAC either 50 or 60 Hz.
The solenoid loads must be rated for the line voltage.
Location
The system must be located in an enclosure that meets relevant safety standards and
electrical codes. There are no other special orientation requirements. Mount it using
the four mounting holes in the baseplate. The baseplate back is flush, so no special
spacers are needed to accommodate obstructions except for those imposed by the
location itself.
Installed screws and other mounting hardware must maintain a spacing of 0.250 in
(6.35 mm) from the circuit board.
Figure 2-1 Wiring Connections DCT622, DCT632
Connections
The line and solenoid connections are located at the lower edge of the board. The
terminal block is a “Euro” style connector system that clamps the wire within the connector body. The connector will accept wire sizes from 14 to 22 gages. Wire must be
copper only with at least 60°C or 60/75°C rated insulation. These terminals should be
torqued to 5 in. lb. The connectors are specified for single connection but multiple
wires may be connected to a single lug provided local codes allow this and good
workmanship practices are followed. When using stranded wire, make sure that there
are no “stray” strands. These pose safety hazards and may cause system failure or
damage. Connect the line power to L1 and L2. Connect the solenoids between the
selected output and the solenoid common. Solenoid common and L2 are internally
connected. Refer to Figure 2-1 or Figure 2-2 depending on model.
The wire should be stripped to no more than 0.25 in. A strip gauge is provided at the
lower right corner of the board. Longer than this may cause shorts or expose line voltages to possible contact.
Switches connected to the control inputs at the top of the board must be isolated normally open contacts connected only to the relevant terminal and to the common terminals. These switches should be rated for low voltage and low current operation.
The following subparagraphs describe the external switch connections. Refer to figure 2-1 or Figure 2-2 depending on model for switch connection illustration.
Figure 2-2 Wiring Connections DCT604, DCT606, DCT610
E-99:DCT500 bulletin
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8:17 AM
Page 3
External Limit Switch Connection
The controller may be used with an external pressure limit switch or sensor to provide
demand-cleaning operation. A three pin terminal block provides connection for external high and low limit switches. A simple on-off system can be established with a single pressure switch connected to the high limit input. Better control can be achieved
with a high and low limit switch/gage such as the Dwyer Photohelic® pressure gage.
The switches must be isolated contacts between the high or low limit input and the
common connection. The wiring from the switches must be two or three wires with no
other connections made to these. The common line must not be connected to equipment ground or protective ground, since these may introduce electrical noise and
cause improper operation or possible damage to the control board. The operation of
these inputs is summarized as follows:
Operating Modes
Low Limit
Current
Switch
Operation
Open
Hold
X
Hold or Run
Ø
Hold
Closed
Hold
Closed
Run
Closed
Hold
≠
Run
Ø – Transition from open to closed
≠ – Transition closed to open
X – Either open or closed
High Limit
Switch
Open
Closed
Open
Ø
≠
Ø
Open
Next
Operation
Hold
Run
Hold
Run
Run
Run
Hold
Continuous Cycle Mode
The DCT600 has two operating modes available for different applications. Starting
with the most basic mode, it is capable of operating in a continuous cleaning cycle.
This can be initiated by placing a jumper between the high limit input and the common connection. Two setup parameters control operation: time off, time on. Time on
and time off specifically deal with the solenoid on time and the time interval between
the end of the on pulse and the start of the next.
Demand Mode
Demand mode operation can be configured using the high limit and low limit inputs.
A simple on-off system can be setup with a single pressure switch connected to the
high limit input. Better control can be achieved with a high and low limit switch set
such as is provided in the Photohelic® pressure gage. In this on-demand mode, time
on and time off may be programmed to define the cleaning cycle. When the cleaning
cycle is completed, the controller will continue the cycle until the last channel is
pulsed. The next cleaning cycle will always start on channel 1. A factory installed
option is available. A factory installed option is available that will not clean to the end
of a cycle, but rather stop where the cleaning cycle ended. The next demand for
cleaning will start where the last cleaning cycle left off.
System Setup
Last Channel Selection DCT604, DCT606, DCT610
A jumper connector is provided on the DCT610, DCT606, and DCT604 to select the
last channel used. Place the jumper on the two pins corresponding to the last channel used in the installation.
Last Channel Selection DCT622, DCT632
The DCT622 and DCT632 use a set of 5 switches to select the last channel. If the
selected last channel is greater than the number of channels available then the controller will cycle through only the available channels. The following table defines the
switch settings for each of the last channel selections. For convenience this table is
also provided on the board below the switch.
Time Off and Time On Setup
Channel
21
20
19
18
17
16
15
14
13
12
11
Switch
00000
00001
00010
00011
00100
00101
00110
00111
01000
01001
01010
Channel
32
31
30
29
28
27
26
25
24
23
22
Switch
01011
01100
01101
01110
01111
10000
10001
10010
10011
10100
10101
Channel
10
9
8
7
6
5
4
3
2
1
Switch
10110
10111
11000
11001
11010
11011
11100
11101
11110
11111
0 = Off, 1 = On
Time off defines the period of time between solenoid activations when no channels
are enabled. This value may be set between 1 second and 200 seconds with a resolution of 1 second. Time on defines the solenoid on time. The value may be set
between 50 msec and 500 msec with a resolution of 10 msec. If adjustments are
made while the system is in operation, the new setting will take effect in the following
solenoid cycle. Do not use excessive force to turn the potentiometers. This will damage the unit. A factory installed option is available for a time on range of 0.05 to 10
seconds.
0.31 TYP [7.87]
4 PLACES
8.88
[225.6]
7.73
[196.3]
4.00
[101.6]
4.00 TYP
[101.6]
4.45
[113.0]
5.74
[145.8]
Weatherproof Enclosure Option
DCT604, DCT606, DCT610
E-99:DCT500 bulletin
7/8/09
8:17 AM
Page 4
13-3/16
(338.14)
11-19/64
(285.94)
5-19/32
(142.08)
Weatherproof Enclosure Option
DCT622, DCT632
Explanation of Symbols:
Symbol
Description
Caution: Risk of electric shock
Caution: Risk of danger, refer to user’s manual for further
information
~
Alternating current
Agency Approvals and Test Standards:
UL:
UL508: 2008
IEC 61010-1: 2001-02
CE:
IEC 61000-4-2: 2001
IEC 61000-4-3: 2006
IEC 61000-4-4: 2004
IEC 61000-4-5: 2005
IEC 61000-4-6: 2006
IEC 61000-4-11: 2004
CENELEC EN 55022: 2007
FCC Part 15 CFR Title 47: 2007
ICES-003: 2004 Digital Apparatus (Industry Canada)
ANSI 63.4-2003
CENELEC EN 61326-1: 2006
2004/108/EC EMC Directive
©Copyright 2009 Dwyer Instruments, Inc
Printed in U.S.A. 7/09
DWYER INSTRUMENTS, INC.
P.O. BOX 373 • MICHIGAN CITY, INDIANA 46361, U.S.A.
Phone: 219/879-8000
Fax: 219/872-9057
FR# 05-443494-00 Rev.3
www.dwyer-inst.com
e-mail: [email protected]
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