Barber-Colman 7EM Manuale utente
Instruction Manual
1262-IN-009-0-03
February 1998 Model 7EM
2
1/8 DIN, THREE DIGIT DISPLAY
TEMPERATURE CONTROLLER
MODEL: 0 7 E M - 4 3 1 1 - 0 0-0-0 0
Field. 1 2 3 4 5 6 7 8 9 10 1112 13 1415
Fields 1 through 4. BASE
07EM - Controller
Field 5. INPUT
4 -TC types J, K, L and N; Pt 100, 3 wire RTD
NOTE: All inputs are factory calibrated and
selectablebykeys. FactorysetattypeJ.
Field 6. CONTROL ACTION
3 -PID and autotuning (Smart AT)
Field 7. OUTPUT 1
1 -Relay (SPDT) or SSR (jumper selectable)
Field 8. OUTPUT 2 (Cooling/Alarm 1)
1 -Relay (SPDT) or SSR (jumper selectable) or
SSR jumper selectable)
Field 9. OUTPUT 3
0 - None
1 - Alarm 2 (when output 2 configured for alarm 1).
3 - Alarm2, plus Hbd (heater breakdown). Order
transformerseparately.
Field 10. POWER SUPPLY
3 - 100 to 240 Vac
5 - 24 Vac/Vdc
Fields 11 through 15. RESERVED
3
CONGRATULATIONS
Congratulations on your purchase of one of the easiest to
configure controllers on the market. After a four step
configurationprocedure,yourprocesswillbeupandrunning.
GUIDE TO SIMPLE SET-UP
Only four steps are required to set-up your controller:
1. Wire the instrument (page 7).
2. Configure the instrument (page 13).
3. Check the operating mode parameters (page 24).
4. Check the autotune (Smart AT) process (page 20).
Unpack the
Instrument
Wiring
Configuration
Operating
Parameters
Autotuning
SV
4
CAUTION: USE WIRE SUITABLE
FOR 75 °C MINIMUM
Contents
1/8 DIN, THREE DIGIT DISPLAY TEMPERATURE
CONTROLLER .................................................. 2
MOUNTING REQUIREMENTS ................................... 5
DIMENSIONS AND PANEL CUTOUT ......................... 6
WIRING GUIDELINES ................................................ 7
CONFIGURATION PROCEDURE ............................. 13
Preliminary Hardware Settings ........................ 13
Configuration Key Functions ........................... 14
ConfigurationProcedure ................................. 14
AdvancedConfigurationProcedure ................ 16
OPERATING MODE ................................................. 17
Operating Key Functions ................................. 17
Autotuning (Smart AT) Function ....................... 18
Manual Reset of the Alarms ............................ 18
Enable/Disable the Control Output.................. 18
Lamp Test ........................................................ 18
OUT 1 Heater Breakdown Alarm ..................... 18
OperatingParameters ..................................... 19
Error Messages ............................................... 19
Error messages ............................................... 20
Default Parameters .......................................... 20
SPECIFICATIONS .................................................... 23
General ............................................................ 23
ControlActions................................................ 23
Inputs .............................................................. 23
Current Transformer Input for OUT 1 Heater
Breakdown Detection (Optional) ............. 24
CALIBRATION PROCEDURE ................................... 26
Calibration Parameters .................................... 26
Procedure ........................................................ 26
Entering Calibration Values .............................. 27
MAINTENANCE ....................................................... 30
5
Bracket
Panel
Gasket
MOUNTING REQUIREMENTS
Select a mounting location with the following
characteristics:
1) Low vibration.
2) An ambient temperature range between 0 and 50 °C
(32 and 122 °F).
3) Easy access to the rear of the instrument.
4) No corrosive gases (sulfuric gas, ammonia, etc.).
5) No water or other fluid (i.e., condensation).
6) A relative humidity of 20 to 85% non-condensing.
The instrument can be mounted on a panel up to 15 mm
(0.591in) thickwithacutoutof45x92mm(1.772 x3.622
in) - see outlinein “Dimensions and Panel Cutout.”
Panel surface texture must be smoother than 6.3 µm.
ToassureIP65 andNEMA 4Xprotection,insert thepanel
gasket between the instrument and the panel as shown
below.
Install the instrument as follows:
1) Insert the instrument case in the gasket.
2) Insert the instrument in the panel cutout.
3) Pushing the instrument against the panel, insert the
mountingbracket.
4) Torquethemountingbracketscrewsbetween 0.3and
0.4 Nm (0.25 and 0.32 lbin).
5) Make sure the instrument will not move within the
cutout to insure NEMA 4X/IP65 protection.
6
89 mm
3.504 in
60 mm
2.362 in
125 mm
4.921 in
45 mm, -0, +0.6 mm
1.772 in, -0, +0.024 in
92 mm, -0, +0.8 mm
3.622 in, -0, +0.031 in
48 mm
1.890 in
96 mm
3.780 in
10 mm
(0.394 in)
DIMENSIONS AND PANEL CUTOUT
7
WIRING GUIDELINES
Terminal board
NOTE: Control outputs 1 and 2 are protected by v
aristoragainstan inductiveloadupto0.5Amps.
All other outputs, or external contacts in series
with the instrument outputs, need an external
snubber network (RC) across the terminals:
CR
in accordance with the following table:
daoL tnerruC C)Fµ( R
(Ω)P)W( dnarotsiseR egatloVroticapaC
Am04<740.00012/1caV062
Am051<1.0222 062caV
pmA5.0<33.0742 062caV
PWR LINE
100/240Vac
24 Vac/Vdc
12
13
15
14
AL1/C
SSR
IN-CT
16
17
18
19
21
22 11
10
9
8
7
6
5
4
3
TC
1
20
RTD
AL2/HB
RELAYNO
C
AL1/C
RELAY
C
NO
MAIN
SSR
+
-
MAIN
RELAY
NO
NC
C
+
-
8
RTD input
43
RTD
143
RTD
1
SAFETY NOTE:
1) Do not run RTD wires with power cables.
NOTES:
1) Ground shielded cable at one end only.
2) Use the correct size copper wires.
3) The resistance of the 3 wires must be the same.
4) Pay attention to line resistance: high line resistance
(higher than 20 Ω/wire) can cause measurement
errors.
Any external components (like zener diodes, etc.)
connectedbetweenthe sensor and inputterminals may
causemeasurementerrors(excessiveor unbalancedline
resistance or possible leakage currents).
A.1) Measuring inputs
Any external components (like zener diodes, etc.)
connectedbetweenthe sensor and inputterminals may
causemeasurementerrors(excessiveorunbalancedline
resistance or possible leakage currents).
TC input
Shield
Shield
1
3
1
3
+
-
+
-
SAFETY NOTE:
1) Do not run input wires with power cables.
NOTES:
1) For TC wiring use proper compensating cable,
preferably shielded.
2) Shielded cable should be grounded at one end only.
9
Thermocouple compensating cable color codes.
elpuocomrehT lairetaM hsitirB 3481SB naciremA 1.69CMISNA namreG 01734NID hcnerF 100-81EFN
TreppoC natnatsnoC +
-etihW eulB eulB
+
-eulB deR eulB
+
-deR nworB nworB
+
-wolleY eulB eulB
L/J norI natnatsnoC +
-wolleY eulB kcalB
+
-etihW deR kcalB
+
-deR eulB eulB
+
-wolleY kcalB kcalB
KmuimorhClekciN munimulAlekciN +
-nworB eulB deR
+
-wolleY deR wolleY
+
-deR neerG neerG
+
-wolleY elpruP wolleY
RmunitalP/munitalP muidohR%31 +
-etihW eulB neerG
+
-kcalB deR neerG
+
-deR etihW etihW
+
-etihW neerG neerG
SmunitalP/munitalP muidohR%01 +
-etihW eulB neerG
+
-kcalB deR neerG
+
-deR etihW etihW
+
-etihW neerG neerG
ElemorhC natnatsnoC +
-nworB eulB nworB
+
-teloiV deR teloiV
-
-
-
-
-
-
BhR%03munitalP hR%6munitalP -
-
-
+
-yerG deR yerG
-
-
-
-
-
-
NlisiN/lisorciN----
10
A.2) Current transformer input
SAFETY NOTE:
1) Do not run current transformer input wiring with AC
power cables.
NOTE:
1) The minimum active period to perform this
measurement is 50 ms.
2) The input impedance is 10 Ω.
3) The maximum input current is 50 mA.
This input measures the current used by OUT 1.
B.1) Relay outputs
20
22
OUT 1
(heating) C
NC
21 NO
17
OUT 2
(AL1/cooling) C
16 NO
10
OUT 3
(AL2/heater
breakdown) C
11 NO
OUT1: Contactrating of 3Amps/250 Vac resistive load.
OUT2: Contact ratingof 2 Amps/250Vac resistiveload.
OUT3: Contact ratingof 2 Amps/250Vac resistiveload.
The output 2 and the NO contact of the output 1 are
protected by varistor from inductive load with an
inductive component up to 0.5 A. The number of
operations is 1 x 105at specified rating.
Notes:
1) To avoid electric shock, cponnect power line at the
end of wiring procedure.
2) For power connections, use no. 16 AWG or larger
wires rated for at least 75°C.
3) Use copper conductors only.
4) Don’t run input wires together with power cables.
5) RelayoutputandSSRdriveroutputarebothavailable.
When a relay output is desired, it is necessary to enable
the relay output, and viceversa. See “Preliminary
Hardware Settings.”
6
Current
tran s form er
H eater
7
Indice
