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UDC2300
Universal Digital Controller
Specification
Overview
The UDC 2300 Universal Digital
Controller is a new low priced
addition to Honeywell’s LeaderLine
PV
ALM
OUT
1
1
F
family.
2
2
C
M
This controller introduces new
features in the popular low priced
¼ DIN size while retaining all the
reliability, cost effectiveness,
simplicity, and popular HMI of
Honeywell’s UDC 2000.
2300
A
L
R
SP 2300
The UDC 2300 monitors and controls
temperatures and other variables in
applications such as environmental
chambers, plastic processing
machines, furnaces and ovens, and
packaging machinery. The standard
features include AccutuneII™ and the
popular single display, automatic
mode model. A Dual Display model
with Automatic/Manual control modes
is optional. A Limit Control model is
also available.
MAN-AUTO
RESET
SET UP
DISPLAY
FUNCTION
AUTO
TUNE
RUN
HOLD
Figure 1—UDC 2300 Controller has a sealed faceplate suitable for
hosedown applications
The UDC 2300 provides a low priced,
1/4 DIN sized alternative for many
applications. Its new features
include:
Universal AC power supply,
RS485 ASCII or Modbus RTU
communications option,
Input/Output isolation, and
Isolated Auxiliary Current
output.
Features/Options
Features/Options, continued
Accutune II™—This standard feature
provides a new, truly plug and play
tuning algorithm, which will, at the
touch of a button or through a digital
input, accurately identify and tune any
process including those with
deadtime and integrating processes.
This speeds up and simplifies start-up
plus allows retuning at any setpoint.
High Accuracy—Typically ±0.25% of
full scale input with a typical resolution
of 15 bits.
Analog Inputs—Two inputs are
available. The first input accepts all
thermocouple, RTD, mA, mV, and
voltage types (See Table 1.).
Alternatively, the second input is a
high level input and can be used as a
remote setpoint, for data acquisition, a
parameter to be alarmed on. All input
types are configurable. All inputs are
sampled six times per second (every
166 ms). These two inputs are
These features when combined with
the new AccutuneII tuning with
Fuzzy Logic overshoot suppression,
result in price/performance
leadership in the performance
segment positioned below the
UDC 3300 Controller.
Fuzzy Logic—This standard feature
uses fuzzy logic to suppress process
variable overshoot due to SP
changes or externally induced
process disturbances. It operates
independently from AccutuneII
tuning. It does not change the PID
constants, but temporarily modifies
the internal controller response to
suppress overshoot. This allows more
aggressive tuning to co-exist with
smooth PV response. It can be
enabled or disabled depending on the
application or the control criteria.
isolated from all other inputs and
outputs, but not from each other.
For the many thousands of satisfied
UDC 2000 users, UDC 2300 is
downward compatible with existing
UDC 2000 applications and
installations. It even uses the same
case; therefore, it can be easily
inserted into existing panel
installations.
Dual Setpoints - Simple push-button
selection allows quick switchover from
primary to alternate setpoint with
minimal operator confusion.
Manual/Automatic Modes—
Bumpless, balanceless transfer
between control modes. Available with
a Dual Display option and SP
Programming option.
CE Mark—Conformity with 73/23/EEC,
Low Voltage Directive and
89/336/EEC, the EMC Directive as a
standard feature.
Modbus is a trademark of AEG Modicon
Industrial Automation and Control, 1110 Virginia Drive, Fort Washington, PA 19034
Printed in U.S.A. ■ © Copyright 1999—Honeywell Inc.
51-52-03-27
Page 3
Configuration
Output Algorithms
Control Algorithms
You decide how the controller is to
interact with the process by
selecting, through simple keystrokes,
the functions you want.
The UDC 2300 is available with one
or more of the following output
algorithms:
Depending on the output algorithms
specified, the controller can be
configured for the following control
algorithms:
Time Proportional—Provides On-Off
or Time Proportional (Relay) output.
• On-Off
• PID-A
• PID-B
• PD with Manual Reset
• Three Position Step Control
The Three Position Step Control
algorithm allows the control of a
valve (or other actuator), with an
electric motor driven by two
controller output relays; one to
move the motor upscale, the
other downscale without a
feedback slidewire linked to the
motor shaft.
Multi-language prompts guide the
operator step-by-step through the
configuration process assuring quick
and accurate entry of all configurable
parameters. Five languages are
available via configuration: English,
French, German, Spanish and
Italian.
Current Proportional—Supplies
proportional direct current output for
final control elements which require a
4-20 mA signal.
Current Proportional Duplex—
Similar to current proportional but
provides a second set of tuning
parameters and a split range current
output or a second current output via
the Auxiliary output option, for the
heat and cool zones.
Inputs
The analog inputs are sampled six
times a second.
Time Proportional Duplex—
Depending on which control algorithm
you select, this duplex output
The UDC 2300 is available with one
or two inputs. The first input, or
Process Variable input, can be one
of the various thermocouple, RTD,
Radiamatic or linear actuations.
Linear actuations have
thermocouple, RTD, and Radiamatic
transmitter characterization capability
as a standard feature.
Control Modes
algorithm can provide On-Off Duplex,
Time Proportional Duplex, or Three
Position Step Control. The time
proportional duplex output provides
independent PID tuning constants and
two time proportional outputs; one for
heat zone above the 50% output, and
one for cool zone below 50% output.
The controller is capable of operating
in three different control modes:
1. Manual
2. Automatic with Local Setpoint
3. Automatic with Remote Setpoint
The manual and automatic control
modes with local and remote setpoint,
and bumpless, balanceless transfer
between modes.
The optional second input is a high
level input and accepts ranges of
0-5V, 1-5V, 0-20mA, or 4-20mA.
Current/Relay Duplex (Relay =
Heat)—A variation of Duplex with
Current active for 0 to 50% output
(PID Set 2) and Relay 2 active 50
to100% output (PID Set 1). Note that
only one alarm is available.
All actuations and characterizations
are keyboard configurable. Cold
junction compensation is provided for
thermocouple type inputs. Upscale or
downscale sensor break protection is
keyboard configurable. A configurable
digital filter of 0 to 120 seconds
Alarms
Alarm output terminals are located at
the rear terminal panel. One or two
electromechanical alarm relays are
available to activate external
Relay/Current Duplex (Relay =
Cool)—A variation of Duplex with
Current active for 50 to 100% output
and Relay 2 is active for 0 to 50%
output. Not that only one alarm is
available.
equipment when preset alarm
provides input signal damping.
setpoints are reached. Each of the
two alarms can be set to monitor two
independent setpoints. Each alarm
setpoint can be either high or low
alarm. The alarm type can be
selected to be either of the inputs,
the Process Variable, Deviation,
Output, Shed from communications,
PV rate of change, or to alarm on
manual mode. It can also be used as
an On or Off event at the beginning
or end of a Ramp/Soak segment.
The alarm hysteresis is configurable
from 0 to 100% of range.
Output Types
Universal Output Model—Flexibility
of the output algorithms allows the
current output with two alarms model
(DC230B-CE) to also be configured
for current simplex, current duplex,
and time simplex. A relay output
model with auxiliary output option
(DC230B-CE-2) can also be
The following output types are
available per the model selection
guide:
• Current Output
• Electromechanical Relays (5
amps)
configured for these output
• Solid State Relays (1 amp)
algorithms. Note that only current
simplex and current duplex can have
2 alarms.
• Solid State Relays (10 amps)
externally mounted (optional)
Configurable alarm features include:
•Alarm latching or non-latching
•Alarm blocking
• Open Collector Outputs
•PV rate of change alarm
•Loop break alarm (Future)
•Timer reset
• Auxiliary Current Output (optional)
51-52-03-27
Page 4
Upper Display - Four digits
• Normal operation - Process Variable
• Configuration mode - displays parameter
value or selection
F - °Fahrenheit being used
C - °Centigrade being used
M or A - Manual/Auto display
ALM - Alarm
conditions exist
PV
ALM
1
1
F
2
2
C
OUT
OUT - Control
Relay
1 or 2 on
M
2300
A
- Remote or Local SP2 setpoint active
R
R
L
L - Local setpoint active
SP 2300
Lower Display - Six alpha-numeric characters
• Normal operation - displays operating
parameters and values (four numeric digits)
• Configuration mode - displays functions
and parameters
MAN-AUTO
RESET
DISPLAY
SET UP
FUNCTION
Keys-
See
Figure 3
AUTO
TUNE
RUN
HOLD
Figure 2—Operator Interface
Operator Interface (Figure 2)
Eight keys enable complete configuration and operation
Indicators—Provide alarm, control
mode, and temperature unit indication.
There is also indication of when
Remote Setpoint is active, the status
of the control relays, and whether a
setpoint program is in Run or Hold
mode.
Selects functions within each configuration group.
FUNCTION
Selects 2nd Setpoint or Remote Setpoint.
Returns Controller to normal display from Set Up mode.
DISPLAY
Toggles various operating parameters for display.
Selects Manual or Auto mode.
Resets the latching Limit Controller relay.
MAN-AUTO
RESET
Displays—A 4-digit upper display is
dedicated to the process variable
during normal operation with alternate
information displayed when in the
configure mode. The upper display is
also dedicated to the single display
model operation and also shows
Setpoint output or Deviation on
demand. The Indicator model uses the
Upper Display only.
In Set Up mode, used to restore original value or selection.
SET UP
Scrolls through the configuration groups.
AUTO
TUNE
Initiates Limit Cycle Tuning.
Increases setpoint or output value. Increases the
configuration values or changes functions in Configuration mode groups.
Decreases setpoint or output value. Decreases the
configuration values or changes functions in Configuration mode groups.
During normal operation of the dual
display model, the six character alpha-
numeric lower display shows key-
selected operating parameters such
as Output, Setpoints, Inputs,
RUN
HOLD
Enables Run/Hold of the SP Ramp or Program
plus Timer start.
22350.ppt
Deviation, active Tuning Parameter
Set, Timer Status, or minutes
Figure 3—Key Functions
remaining in a setpoint ramp. It also
provides guidance, through language
prompts, for the operator during
controller configuration.
51-52-03-27
Page 5
Specifications
Design
CE Conformity (Europe)
This product is in conformity with the protection requirements of the following
European Council Directives: 73/23/EEC, the Low Voltage Directive, and
89/336/EEC, the EMC Directive. Conformity of this product with any other “CE
Mark” Directive(s) shall not be assumed.
Product Classification:
Enclosure Rating:
Class I: Permanently Connected, Panel Mounted Industrial Control Equipment
with protective earthing (grounding). (EN61010-1)
Panel Mounted Equipment, IP 00, this controller must be panel mounted.
Terminals must be enclosed within the panel. Front panel IP 65 (IEC 529).
Installation Category
(Overvoltage Category):
Category II: Energy-consuming equipment supplied from the fixed installation.
Local level appliances, and Industrial Control Equipment. (EN 61010-1)
Pollution Degree:
Pollution Degree 2: Normally non-conductive pollution with occasional
conductivity caused by condensation. (Ref. IEC 664-1)
EMC Classification:
Group 1, Class A, ISM Equipment (EN 55011, emissions), Industrial Equipment
(EN 50082-2, immunity)
Method of EMC Assessment:
Declaration of Conformity:
Technical File (TF)
51309871-000
Input Accuracy
± 0.25% of full scale typical (±1 digit for display)
Can be field calibrated to ±0.05% of full scale typical
15-bit resolution typical
Sampling Rate
Inputs sampled six times a second
Temperature Stability
Input Signal Failure Protection
±0.025% of full scale span per °C typical
Thermocouple Inputs: Upscale or downscale burnout
Burnout Current: 0.13 microamps
Failsafe Output Level: Configurable 0-100%
Input Impedance
4-20 Milliampere Input: 249 ohms
0-10 Volt Input: 200K ohms
All Other: 10 megohms
Maximum Lead Wire Resistance
Stray Rejection
Thermocouples: 100 ohms/leg
100, 200, and 500 RTD: 100 ohms/leg
100 Low RTD: 10 ohms/leg
Common Mode
AC (50 or 60 Hz): 120 dB at 120Vac with a maximum source impedance of 100
ohms. 120db at 240Vac with a maximum source impedance of 40 ohms.
DC: 120 dB (with maximum source impedance of 100 ohms) or a ±1 LSB
whichever is greater with 120 Vdc applied.
DC (to 1 KHz): 80 dB (with maximum source of impedance of 100 ohms) or ±1
LSB whichever is greater with 50 Vac applied.
Normal Mode
AC (50 or 60 Hz): 60 dB (with 100% span peak-to-peak maximum)
Alarm Outputs
One SPDT electromechanical relay.
A second alarm is available using the second control relay. This is not available
with Relay Duplex, Time/Current Duplex, or Three-Position Step control.
Up to four setpoints are independently set as high or low alarm, two for each
relay. Setpoint can be on any Input, Process Variable, Deviation, Manual Mode,
Failsafe, PV Rate, RSP Mode, Communication Shed, or Output. A single
adjustable hysteresis of 0.0 to 100.0% is provided. The alarm can also be set as
an ON or OFF event at the beginning of a setpoint ramp/soak segment.
Alarm Relay Contacts Rating
Resistive Load: 5 ampere at 120 Vac or 30Vdc, 2.5 ampere at 240Vac
Controller Output Types
Current Output
Range can be set anywhere between 0 to 21 mA, and as direct or reverse action.
Resolution: 11 bits for 0 to 21 mA
Accuracy: 0.5% full scale
Temperature Stability: 0.1% F.S./°C
Load Resistance: 0 to 750 ohms
51-52-03-27
Page 6
Specifications, continued
Design (continued)
Controller Output Types (continued) Electromechanical Relays (One or Two)
SPDT contacts. Both Normally Open and Normally Closed contacts are brought
out to the rear terminals.
Internally socketed
Resistive Load: 5 amps @ 120 Vac or 30Vdc, 2.5 ampere at 240Vac
Inductive Load: 50 VA @ 120 Vac or 240 Vac
Motor: 1/6 H.P.
Solid State Relays (One or Two)
SPST solid state contacts consisting of a triac N.O. output.
Internally socketed
Resistive Load: 1.0 amp @ 25°C and 120 or 240 Vac
0.5 amp @ 55°C and 120 or 240 Vac
Inductive Load: 50 VA @ 120 Vac or 240 Vac
Minimum Load: 20 milliamps
Open Collector Outputs (One or Two)
Maximum Sink Current: 20 mA
Overload Protection: 100 mA
Internally powered @ 25 Vdc
Opto-isolated from all other circuits except current output, but not from each
other.
Socketed jumper assembly replaces relay.
Solid State Relays (10 amps)
One or two externally mounted SPST triac N.O. outputs for use with open
collector outputs.
Resistive Load: 15 amps @ 25°C and 120 or 240 Vac
10 amps @ 55°C and 120 or 240 Vac
Inductive Load: 50 VA @ 120 Vac or 240 Vac
Motor Rating:
1 HP @ 25°C
0.75 HP @ 55°C
Controller Output Algorithms
On-Off or Time Proportional
One relay or open collector output. Control action can be set for direct or reverse.
Time Proportional Relay Resolution: 3.3 msec
On-Off Duplex, Three Position Step Control, or Time Proportional Duplex
Two relays or open collector outputs. Control action can be set for direct or
reverse.
Time Proportional Relay Duplex Resolution: 3.3 msec
Current Proportional
A single 4-20 mA current output signal which can be configured for direct or
reverse action.
Current Proportional Duplex
A single split current output for both heat and cool (4-12 cool, 12-20 heat) or a
combination of current proportional output (Heat = 50 to 100% of range) and
auxiliary current output (Cool = 0 to 50% of range). Both are 4-20 mA signals
which can be set for direct or reverse action.
Current/Time Duplex
Variation of time proportional duplex for Heat/Cool applications. Time proportional
output (heat or cool) is a relay. Current proportional output (Heat or Cool) is a 4-
20 mA signal that can be fed into a negative or positive grounded load of 0 to 750
ohms and is operational over 50% of range or the entire range.
Digital Input (Optional)
(Isolated)
+25 Vdc source for external dry contacts or isolated solid state contacts. The
Digital Input option detects the state of external contact.
On contact closure the controller will respond according to how the digital input is
configured. Opening contact causes return to previous state.
Input Filter
Software: Single pole lowpass section with selectable time constants, off to 120
seconds available on both analog inputs.
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Page 7
Specifications, continued
Design (continued)
Auxiliary Linear Output (Optional)
(Isolated)
21 mA dc maximum into a negative or positive grounded load or non-grounded
load of 0 to 500 ohms.
Output range can be set anywhere between 0 to 21 mA, and as direct or reverse
action. It can be configured to represent IN1, IN2, PV, Setpoint, LSP1, Deviation,
or Control output. The range of the auxiliary output, as a function of the selected
variable, can be scaled. This output can be used as a second current output for
current duplex outputs.
Resolution: 12 bits over 0 to 21 mA
Accuracy: 0.1% of full scale
Temperature Stability: 0.01% F.S./°C
Load Resistance: 0 to 500
Communications Interface (Optional)
RS422/485 ASCII
Baud Rate: 2400, 4800, 9600, or 19200 baud
Parity: Odd or Even
Length of Link: 2000 ft. maximum
Link Characteristics: Two-wire (half duplex), multi-drop RS422 ASCII , 31 drops
maximum.
RS422/485 Modbus RTU
Baud Rate: 2400, 4800, 9600, or 19200 baud selectable
Data Format: Floating point or integer
Length of Link: 2000 ft. maximum
Link Characteristics: Two-wire (half duplex), multi-drop Modbus RTU protocol,
31 drops maximum.
Setpoint Ramp/Soak Programming
(Optional)
Lets you configure 6 ramp and 6 soak segments to be stored for use as one
program or several small programs. You designate the beginning and end
segments to determine where the program is to start/stop allowing several small
programs. Each ramp segment can be configured to be run in Hours and Minutes
or degrees per minute. Soak segments can have a guaranteed soak deviation
which guarantees the time for each soak and will not start until the PV is reached.
Digital Displays
Indicators
Vacuum fluorescent, Dual Displays
A four-character upper display dedicated to the process variable.
Alternate information displayed during configuration mode.
A six-character, alphanumeric lower display primarily shows key selected
operating parameters . Also provides guidance during controller configuration.
Alarm Relay Status (ALM 1 or 2)
Control Mode (A or M)
Temperature Units (F or C)
Remote Set Point or SP2 Active (R)
Control Relay Status (OUT 1 or 2)
Modes of Operation
Manual (Available on Dual Display version only.)
Automatic with local setpoint
Automatic with remote setpoint
Dimensions
See Figure 5.
Mounting
Panel-mounted, 4.2-inch depth
Wiring Connections
Power Consumption
Power Inrush Current
Screw terminals on the rear of the case. (See Figure 6.)
12 VA maximum (90 to 264 Vac) and (24 Vac/dc)
10A maximum for 4 ms (under operating conditions)
CAUTION
When applying power to more than one UDC 2300, make sure that
sufficient power is supplied. Otherwise, the controllers may not start up normally
due to voltage drop from the inrush current.
Weight
1 kg (2.2 lbs.)
51-52-03-27
Page 8
Specifications, continued
Environmental and Operating Conditions
Parameter
Reference
Rated
0 to 55°C
Operative Limits
Transportation and Storage
Ambient Temperature
25 ± 3°C
0 to 60°C
32 to 140°F
–40 to 66°C
–40 to 151°F
77 ± 5°F
10 to 55*
32 to 131°F
Relative Humidity
10 to 90*
5 to 90*
5 to 95*
Vibration
Frequency (Hz)
Acceleration (g)
0
0
0 to 70
0.4
0 to 200
0.6
0 to 200
0.5
Mechanical Shock
Acceleration (g)
Duration (ms))
0
0
1
30
5
30
20
30
Voltage (Vdc, Vac)
Voltage (Vac)
+24 ±1
20 to 27
20 to 27
- -
90 to 264 Vac
120 ±1
240 ±2
90 to 264
90 to 264
- -
- -
(CSA models rated to 250V max.)
Frequency (Hz)
50 ±0.2
60 ±0.2
49 to 51
59 to 61
48 to 52
58 to 62
- -
- -
(For Vac)
* The maximum rating only applies up to 40°C (104°F). For higher temperatures, the RH specification is derated to maintain constant moisture content.
Table 1—Input Actuations
Range
Range
PV Input
°F
°C
PV Input
°F
°C
Thermocouples
(Per ITS-90)
RTD
IEC Alpha = 0.00385
B
0 to 3300
–454 to 1832
–200 to 1100
0 to 1600
–18 to 1816
–270 to 1000
–129 to 593
–18 to 871
–7 to 410
100 ohms
100 ohms (low)
200 ohms
–300 to 1200
–300 to 300
–300 to 1200
–300 to 1200
–184 to 649
–184 to 149
–184 to 649
–184 to 649
E
E (low)
J
500 ohms
J (low)
20 to 770
K
0 to 2400
–18 to 1316
–29 to 538
0 to 1371
Linear
K (low)
–20 to 1000
32 to 2500
32 to 1260
32 to 2500
32 to 1260
0 to 2372
NiNiMoly (NNM68)
NiNiMoly (low)
NiMo-NiCo(NNM90)
NiMo-NiCo (low)
Nicrosil Nisil (NIC)
R
Milliamps
4 to 20 mA
0 to 20 mA
0 to 682
0 to 1371
0 to 682
–18 to 1300
–18 to 1704
–18 to 1704
–184 to 371
–129 to 260
–18 to 2315
–18 to 1227
Millivolts
Volts
0 to 10 mV
0 to 100 mV
0 to 3100
0 to 3100
S
T
–300 to 700
–200 to 500
0 to 4200
1 to 5 V
0 to 5 V
0 to 10V
T (low)
W5W26
W5W26 (low)
0 to 2240
Honeywell Radiamatic
Type RH
Type RI
0 to 3400
0 to 9999 max.*
–18 to 1871
–18 to 9999 max.*
*User enters the range manually per RI type and application.
51-52-03-27
Page 9
General Reference Data
Isolation
(Functional)
Analog Inputs : are isolated from all other circuits at 850Vdc for 2 seconds, but not from each other.
Analog Outputs : are isolated from all other circuits at 850Vdc for 2 seconds.
AC Power : is electrically isolated from all other inputs and outputs to withstand a HIPOT potential of
1900Vdc for 2 seconds per Annex K of EN61010-1.
Relay Contacts : with a working voltage of 115/230 Vac, are isolated from each other and all other
circuits at 345Vdc for 2 seconds.
Surge Withstand Immunity: ANSI/IEEE C37.90.1, Surge Withstand Capability (SWC) (Formerly IEEE 472). Mains power
Capability (SWC)
input and relay contact outputs: 2.5 kV, Common Mode and Differential Mode. All other circuits: 1.0 kV,
Common Mode and Differential Mode. The instrument is capable of meeting these test levels with no
component failures, no reset, and no incorrect outputs.
Radio Frequency Immunity: No effect on performance from a 5 W walkie-talkie operated at 27, 151 or 450 MHz, one
Interference
(RFI)
meter from the controller.
Model Number Interpretation
D C 2 3 0
0
Manuals
0 _ = English
B = Basic Controller Model
L = Limit Controller Model
F _ = French (Europe)
G _ = German (Europe)
T _ = Italian (Europe)
S _ = Spanish (Europe)
Certificate
Digital Indicator Model
I =
Output #1
None
O =
C _ = Current
E _ = Relay, E-M
_ 0 = None
_ C = Certificate of
Relay, SS 1 amp
A _ =
Conformance (F3391)
S _ = Relay, SS 10 amp
T _ =Open Collector Output
Options
0 _ _ _ _ _ _
1 _ _ _ _ _ _
Output #2 or Alarm #2 and Alarm #1
_ 0 = No additional outputs or alarms
_ E = Relay, E-M and Alarm #1
= 90 to 264 Vac Power
= 24 Vac/dc Power (Future)
(requires Alarms plus IN 2)
= UL and CE
_ A = Relay, SS 1 amp and Alarm #1
_ S = Relay, SS 10 amp and Alarm #1
_ T = Open Collector Output and Alarm #1
_ 0 _ _ _ _ _
_ A _ _ _ _ _
_ _ 0 _ _ _ _
_ _ T _ _ _ _
_ _ _ 0 _ _ _
_ _ _ P _ _ _
_ _ _ _ 0 _ _
_ _ _ _ B _ _
_ _ _ _ T _ _
_ _ _ _ _ 0 _
_ _ _ _ _ _ 0
= UL, CE, CSA, and
= None
FM
= Customer ID Tag
= None
External Interface
0 _ = None
1 _ = RS422/485 ASCII / Modbus
2 _ = Auxiliary Output or Digital Input
= Rear Terminal Cover
= Gray Elastomer Bezel
= Blue Elastomer Bezel
= Tan Elastomer Bezel
= Future
Software Options
_ 0 = Single Display (includes Accutune II on DC230B)
_ A = Dual Display, MA, + Accutune II
_ B = Setpoint Programming (SPP), Dual Display,
MA, Accutune II
= Future
PV Input
1 _ = T/C, RTD, Radiamatic, mV, 0-5V, 0-20mA, 4-20mA
2_ = T/C, RTD, Radiamatic, mV, Volts, milliamps, 0-10 Volts
Optional Input 2
_ 0 = None
_ 1 = 0-5V, 1-5V, 0-20mA, 4-20mA
Figure 4—Model Number Interpretation
51-52-03-27
Page 10
Dimensions
+ .8
+0.008
9902
-0.0
03
3.53.622 +0.031
-0.0
96
3.780
ALM
OUT
1 2
1 2
F C
MA
RL
PV
+0.008
92 -0.0
96
3.780
+0.031
-0.0
3.622
MAN-AUTO
RESET
FUNCTION
DISPLAY
SET UP
RUN
HOLD
AUTO
TUNE
Max Panel
Thickness
24
.945
10
.394
2.62
.103
Max (2)
with optional
rear cover
90.7
3.57
Dimensions:
Millimeters
Inches
105.4
4.19
21.0
.826
20751
Figure 5—UDC 2300 Controller Dimensions – not to scale
51-52-03-27
Page 11
Wiring Diagram
+
ALM2
CTL2
9
8
7
{
10
11
12
13
-
IN1
6 R
ALM1
{
+
5
CTL1
4-20mA
}
+
4 -
L2/N
L1
OP TIO N
{
{
- 14
90-264V~
+
15
IN2
-
16
248 65
Figure 6—External Wiring Diagram
Ordering Information
For the complete ordering information, request Model Selection Guide
51-51-16-59 for UDC 2300 Universal Digital Controller.
Honeywell offers a full line of Sensors, Transmitters, and Final Control Devices for use with the
UDC 2300 Universal Digital Controller. These devices include:
•
•
•
•
•
•
•
•
Thermocouples,
RTDs,
Pressure Transmitters,
Flow Transmitters,
Liquid Level Transmitters,
Valves,
Actuators, and
Electric Motors.
Specifications are subject to change without notice.
51-52-03-27
Page 12
Distributor :
For more information, contact your nearest Honeywell Response Center listed below.
Industrial Automation and Control
Honeywell Inc.
In the U.S.A.: Honeywell Industrial Automation and Control, 16404 North Black Canyon Hwy., Phoenix, AZ 85023, (800) 343-0228
In Europe: Honeywell S.A., 80084 Amiens Cedex 2, (33) 22.54.56.56
Honeywell Control System Ltd., Honeywell House, Bracknell, UK-RG 12 1 EB, (44) 1344 826000
In Japan: Yamatake-Honeywell Co. Ltd., Nagai Int’l Bldg., 2 - 12 - 19 Shibuya-Ku, Tokyo 150 Japan, 81-3-3486-2051
In Asia: Honeywell Asia Pacific Inc., Room 3213-3225, Sun Hung kai Centre, No. 30 Harbor Road, Wanchai, Hong Kong, (852) 829-8298
In the Mediterranean: Africa and Middle East Region, Honeywell SpA, Via Vittor Pisani 13, 20124 Milano, Italy (39-2) 67731
Honeywell Pacific Division: Honeywell Pty Ltd., 5 Thomas Holt Drive, North Ryde Sydney, NSW Australia 2113, (61-2) 353 7000
In Canada: The Honeywell Centre, 155 Gordon Baker Road, Ontario M2H 3N7, 1-800-461-0013
In Latin America: Honeywell Inc.,14505 Commerce Way, Suite 500, Miami Lakes, Florida 33016-1556, (305) 364-2300
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