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8
Specifications
This chapter contains specifications for the D8 series controllers, TB50 terminal board, Dual DAC module, Serial DAC module and the D8 power supply.
System Specifications
This section contains D8 series controller specifications for environmental specifications and physical dimensions, inputs, outputs, the serial interface and system power requirements.
The controller consists of a processor module with a 50-terminal block (TB50) or a processor module with an 18-terminal block (TB18).
CE Directive
UL and C-UL
ODVA
Table 8.1
Agency Approvals / Compliance
Electromagnetic Compatibility (EMC) Directive 89/336/EEC
UL 916, Standard for Energy Management Equipment File E177240
DeviceNet and Semiconductor SIG
Physical Specifications
Table 8.2
Environmental Specifications
Storage Temperature
Operating Temperature
Humidity
Environment
-20 to 60° C
0 to 50° C
10 to 95% non-condensing
The controller is for indoor use only
Doc. 0600-3120-2000 Watlow Anafaze 179
Chapter 8: Specifications
96 mm (3.78 in)
Series D8 User’s Guide
45 mm
(1.76 in)
90 mm
(3.55 in)
50 mm
(1.96 in)
213 mm
(8.4 in)
188 mm
(7.4 in)
Figure 8.1
D8 Module Dimensions
Table 8.3
D8 with Straight SCSI
Length*
Width
Height
10.0 to 10.5 in.
3.78 inches
1.96 inches
254 to 267 mm
96 mm
50 mm
*Exact requirement depends on usage and choice of cables.
180 Watlow Anafaze Doc. 0600-3120-2000
Series D8 User’s Guide Chapter 8: Specifications
188 mm (7.4 in)
41 mm to 54 mm
(1.6 in to 2.1 in) for cables and clearance
25 mm
(1.0 in)
Figure 8.2
Module Dimensions and Clearance
Power Terminals (TB2)
Power Wire Gauge (TB2)
Power Terminal Torque (TB2)
Sensor Terminals (TB1)
Sensor Wire Gauge (TB1)
Sensor Terminal Torque (TB1)
Output Terminals (TB18)
Output Wire Gauge (TB18)
Output Terminal Torque (TB18)
SCSI Connector
DeviceNet Connector
Doc. 0600-3120-2000
Table 8.4
D8 Connections
Captive screw cage clamp
22 to 18 AWG (0.5 to 0.75 mm 2 )
4.4 to 5.3 in.-lb. (0.5 to 0.6 Nm)
Captive screw cage clamp
Thermocouple: 20 AWG (0.5 mm 2 )
Process: 22 to 20 AWG (0.5 mm 2 )
Communications: 24 AWG (0.2 mm 2 )
4.4 to 5.3 in.-lb. (0.5 to 0.6 Nm)
Captive screw cage clamp
Multiconductor cables: 24 AWG (0.2 mm 2 )
Single-wire: 22 to 18 AWG (0.5 to 0.75 mm 2 )
4.4 to 5.3 in.-lb. (0.5 to 0.6 Nm)
SCSI-2 female
Male, sealed, micro-style, quick disconnect DeviceNet connector
Table 8.5
TB50 Physical Dimensions
Weight
Length
Width
Height
0.32 lb.
4.1 inches
4.0 inches
1.5 inches
0.15 kg
104 mm
102 mm
37 mm
Watlow Anafaze 181
Chapter 8: Specifications
182
Series D8 User’s Guide
4.1 in.
(104 mm)
4.0 in.
(102 mm)
Figure 8.3
TB50 Dimensions
1.5 in.
(37 mm)
Table 8.6
TB50 Connections
Screw Terminal Torque 4.4 to 5.3 in.-lb. (0.5 to 0.6 Nm)
SCSI Connector on
Board
Output Terminals
SCSI-2 female
Captive screw cage clamp
Output Wire Gauge
Multiconductor cables: 24 AWG
(0.2 mm 2 )
Single-wire: 22 to 18 AWG
(0.5 to 0.75 mm 2 )
Output Terminal Torque 4.4 to 5.3 in.-lb. (0.5 to 0.6 Nm)
Table 8.7
TB50 with Straight SCSI
Length
Width
Height
6.4 inches
4.0 inches
1.5 inches
163 mm
102 mm
37 mm
Watlow Anafaze Doc. 0600-3120-2000
Series D8 User’s Guide Chapter 8: Specifications
6.4 in.
(163 mm)
4.0 in.
(102 mm)
1.5 in.
(37 mm)
Figure 8.4
TB50 Dimensions with Straight
SCSI Cable
Table 8.8
TB50 with Right Angle SCSI
Length
Width
Height
5.4 inches
4.0 inches
1.5 inches
137 mm
102 mm
37 mm
Doc. 0600-3120-2000 Watlow Anafaze 183
Chapter 8: Specifications Series D8 User’s Guide
5.4 in.
(137 mm)
4.0 in.
(102 mm) 1.5 in.
(37 mm)
Figure 8.5
TB50 Dimensions with Right-Angle
SCSI Cable
184 Watlow Anafaze Doc. 0600-3120-2000
Series D8 User’s Guide Chapter 8: Specifications
Inputs
The controller accepts analog sensor inputs which are measured and may be used as feedback for control loops. It also accepts digital (TTL) inputs which may be used to trigger certain firmware features.
Table 8.9
Analog Inputs
Number of Control Loops
Number of Analog Inputs
Input Switching
Input Sampling Rate
Milliampere Inputs
Voltage Input Ranges Available
Source Impedance
D84_- _ _ _ _ - _ _ _ _ : 4 loops
D88_- _ _ _ _ - _ _ _ _ : 8 loops
D84_- _ _ _ _ - _ _ _ _: 4 loops with full range of input types
D88_- _ _ _ _ - _ _ _ _: 8 loops with full range of input types
Differential, solid-state multiplexer
D84_- _ _ _ _ - _ _ _ _: 6 Hz (167 ms) at 60 Hz; 5 Hz (200 ms) at 50 Hz
D88_- _ _ _ _ - _ _ _ _: 3 Hz (333 ms) at 60 Hz; 2.5 Hz (400 ms) at 50 Hz
0 to 20 mA (3 Ω resistance) or 0 to 10 mA (6 Ω resistance), with scaling resistors
0 to 12 V, 0 to 10 V, 0 to 5 V, 0 to 1 V, 0 to 500 mV, 0 to 100 mV with scaling resistors
For 60 mV thermocouple, measurements are within specification with up to 500 Ω source resistance
For other types of analog signals, the maximum source impedance is 5000 Ω
-10 to +60 mV, or 0 to 25 V with scaling resistors
0.006%, greater than 14 bits (internal)
Input Range
Resolution
Accuracy
0.03% of full scale (60 mV) at 25° C
0.08% of full scale (60 mV) at 0 to 50° C
Analog Over Voltage
Protection
± 20 V referenced to digital ground.
Maximum Common Mode Voltage 5 V input to input or input to analog common
Common Mode
Rejection (CMR)
Calibration
Analog Ground to Frame Ground
Maximum
DC Common to Frame Ground
Maximum Potential
Open Thermocouple Detection
For inputs that do not exceed ± 5 V, >60 dB dc to 1 kHz, and
120 dB at selected line frequency.
Automatic zero and full scale
40 V
40 V
Pulse type for upscale break detection
Doc. 0600-3120-2000 Watlow Anafaze 185
Chapter 8: Specifications Series D8 User’s Guide
Table 8.10
Thermocouple Range and
Resolution
Thermocouple
Type
R
B
E
T
S
J
K
Accuracy* at
25˚C Ambient
Accuracy* at
0 to 50˚C Ambient
Range in ˚F Range in ˚C
˚F ˚C ˚F ˚C
-350 to 1400 -212 to 760
-450 to 2500 -268 to 1371
-450 to 750
0 to 3200
-268 to 399
-18 to 1760
0 to 3210
150 to 3200
-328 to 1448
-18 to 1766
66 to 1760
±2.2
±2.4
±2.9
±5.0
±5.0
±7.2
±1.2
±1.3
±1.6
±2.8
±2.8
±4.0
±3.3
±3.8
±5.8
±8.8
±8.8
±22.1
±1.8
±2.1
±3.2
±4.9
±4.9
±12.3
-200 to 787 ±1.8
±1.0
±2.9
±1.6
* True for 10 percent to 100 percent of span except type B, which is specified for 800° F to 3200° F.
Range in ˚F
Range in ˚C
Resolution in ˚C
Measurement
Temperature in ˚C
-328.0 to
1150.0
-200.0 to
621.1
0.07
Table 8.11
RTD Range and Resolution
25
400
Accuracy at
25˚C Ambient
˚F
0.9
2.7
˚C
0.5
1.5
Accuracy at
0 to 50˚C Ambient
˚F
1.2
4.1
˚C
0.5
2.2
Table 8.12
Input Resistance for Voltage Inputs
Range
0 to 12 V
0 to 10 V
0 to 5 V
0 to 1 V
0 to 500 mV
0 to 100 mV
Input Resistance
85 k Ω
50 k Ω
40 k Ω
7.4 k Ω
6.2 k Ω
1.2 k Ω
186 Watlow Anafaze Doc. 0600-3120-2000
Series D8 User’s Guide Chapter 8: Specifications
Number
Function
Input Voltage Protection
Voltage Levels
Response Time
Table 8.13
Digital Inputs
Maximum Switch Resistance to Pull Input Low
Minimum Switch Off Resistance
With TB50: 8
With TB18: 3
Selectable for output override or remote job selection
Diodes to supply and common. Source must limit current to 10 mA for override conditions
<1.3 V = Low
>3.7 V = High (TTL)
5 V maximum, 0 V minimum
1.7 k Ω
1.4 k Ω
50 ms (AC line frequency set to 60 Hz)
60 ms (AC line frequency set to 50 Hz)
Outputs
The controller directly accommodates switched dc and opencollector outputs only. These outputs can be used to control a wide variety of loads. They are typically used to control solid state relays or other power switching devices which, in turn, control devices such as heaters. They may also be used to signal another device of an alarm condition in the controller.
Analog outputs may be accomplished by using Dual DAC or
Serial DAC modules in conjunction with one of the control outputs.
An open-collector CPU watchdog output is also provided so that an external device can monitor the CPU state.
Analog Outputs
No direct analog outputs are provided.
The digital outputs may be used in conjunction with Dual
DAC or Serial DAC modules to provide analog signals. See
Dual DAC Specifications on page 191 and Serial DAC Spec-
Doc. 0600-3120-2000 Watlow Anafaze 187
Chapter 8: Specifications Series D8 User’s Guide
Digital Outputs
Number
Operation
Function
Number of Control Outputs per
PID Loop
Control Output Types
Time Proportioning Cycle Time
Control Action
Off State Leakage Current
Maximum Current
Maximum Voltage Switched
Table 8.14
Digital Outputs Control / Alarm
20 with TB50 option or 13 with TB18 option
Open collector output; ON state sinks to logic common
1 Global alarm output
1 CPU watchdog output
Balance selectable as closed-loop control or alarms
2 (maximum)
Time proportioning, distributed zero crossing, Serial DAC or on/off. All independently selectable for each output. Heat and cool control outputs can be individually disabled for use as alarm outputs
1 to 255 seconds, programmable for each output
Reverse (heat) or direct (cool), independently selectable for each output
<0.01 mA to dc common
60 mA for each output. 5V power supply (from the processor module) can supply up to 350 mA total to all outputs
24 Vdc
Voltage
Maximum Current
Minimum Time Between
Polled I/O Requests
Voltage
Maximum Current
Table 8.15
5 Vdc Output (Power to Operate
Solid-State Relays)
5 Vdc
350 mA
Table 8.16
Communications
20 ms
Table 8.17
D8 Power Requirements
15 to 24 +/-3 Vdc
1 A
188 Watlow Anafaze Doc. 0600-3120-2000
Series D8 User’s Guide
Power Supply
Chapter 8: Specifications
Specifications for the D8 power supply are available at www.watlow.com. See the links on the D8 page.
Doc. 0600-3120-2000 Watlow Anafaze 189
Chapter 8: Specifications Series D8 User’s Guide
190 Watlow Anafaze
7.5 inches
(191 mm)
Doc. 0600-3120-2000
1.4 in
(36 mm)
0.19 (3/16) inch diameter
0.3 inch
(8 mm)
(5 mm)
Series D8 User’s Guide Chapter 8: Specifications
Dual DAC Specifications
The Watlow Anafaze Dual DAC (digital-to-analog converter) is an optional module for the D8 series controller. The Dual
DAC converts a distributed zero crossing (DZC) output signal to an analog process control signal. Watlow Anafaze provides the following version of the Dual DAC:
• 4 to 20 mAdc
• 0 to 5 Vdc
• 0 to 10 Vdc
Table 8.23
Dual DAC Environmental Specifications
Storage Temperature
Operating Temperature
Humidity
-20 to 60° C
0 to 50° C
10 to 95% non-condensing
Table 8.24
Dual DAC Physical Specifications
Weight
Length
Width
Height
0.42 lb.
4.4 inches
3.6 inches
1.8 inches
0.19 kg
112 mm
91 mm
44 mm
0.162 in. diameter
(4 mm)
DAC 1
1.8 in.
44 mm
3.6 in.
91 mm
ANAF
DUAL
DAC
AZE
DAC 2
I SINK OUT
+5V IN DZC IN
+10-24V IN V OUT
I SINK OUT
3.0 in.
76 mm
3.7 in.
94 mm
0.3 in. 0.4 in.
8 mm 10 mm
Figure 8.7
Dual DAC Dimensions
4.4 in.
112 mm
Doc. 0600-3120-2000 Watlow Anafaze 191
Chapter 8: Specifications Series D8 User’s Guide
Dual DAC Inputs
The Dual DAC accepts an open-collector signal from the D8 controller and the power from an external power supply. See
Table 8.25
Dual DAC Power Requirements
Voltage
Current
Parameter Description
12 to 24 Vdc
100 mA @ 15 Vdc
Dual DAC Analog Outputs
Version
Gain Accuracy
Output Offset
Table 8.26
Dual DAC Specifications by Output
Range
4 to 20 mA
± 6
± 0.75
0 to 5 V
± 6
± 0.75
0 to 10 V
± 6
± 0.75
Ripple
Time Constant
Maximum Current Output
Load Resistance (12 V)
Load Resistance (24 V)
1.6
1.6
1.6
2
20
2
10
2
10
250 maximum 500 minimum 1000 minimum
850 maximum n/a n/a
Units percent percent of full scale range percent of full scale range seconds mAdc
Ohms
Ohms
192 Watlow Anafaze Doc. 0600-3120-2000
Series D8 User’s Guide Chapter 8: Specifications
Serial DAC Specifications
Watlow Anafaze offers a Serial DAC for precision open-loop analog outputs. The Serial DAC is jumper-selectable for a 0 to
10 Vdc or 4 to 20 mA output. Multiple Serial DAC modules can be used with one D8. The Serial DAC carries a CE mark.
Table 8.27
Serial DAC Environmental Specifications
Storage Temperature
Operating Temperature
Humidity
-20 to 60° C
0 to 50° C
10 to 95% non-condensing
Table 8.28
Serial DAC Physical Specifications
Weight
Length
Width
Height
0.76 lb.
5.4 inches
3.6 inches
1.8 inches
0.34 kg
137 mm
91 mm
44 mm
ANAF
AZE
0.2 in. diameter
4 mm
1.8 in.
44 mm
SERIAL D
PIN
: 1
2 +5V IN
CLK IN
IN
FLASHING
OUTPUT SELECT
CURRENT
VO
LTAG
E
{
{
5 6
AC
3.0 in.
76 mm
4.7 in.
119 mm
5.5 in.
138 mm
3.6 in.
91 mm
0.3 in.
8 mm
0.4 in.
10 mm
Figure 8.8
Serial DAC Dimensions
Doc. 0600-3120-2000 Watlow Anafaze 193
Chapter 8: Specifications
Serial DAC Inputs
Series D8 User’s Guide
Table 8.29
Serial DAC Agency Approvals /
Compliance
CE Directive
UL and C-UL
Electromagnetic Compatibility (EMC) directive 89/336/EEC
UL 916 Standard for Energy Management Equipment File E177240
The Serial DAC requires a proprietary serial data signal and the clock signal from the D8 via the TB50. Any control output can be configured to provide the data signal. The Serial DAC also requires a 5 Vdc power input.
Table 8.30
Serial DAC Inputs
Data
Clock
4 mA maximum to DC COM
Open collector or HC CMOS logic levels
0.5 mA maximum to DC COM
Open collector or HC CMOS logic levels
Table 8.31
Serial DAC Power Requirements
Voltage 4.75 to 5.25 Vdc @ 300 mA maximum
194 Watlow Anafaze Doc. 0600-3120-2000
Series D8 User’s Guide Chapter 8: Specifications
Serial DAC Analog Outputs
Absolute Maximum Common
Mode Voltage
Resolution
Accuracy (Calibrated for Voltage
Output)
Temperature coefficient
Isolation Breakdown Voltage
Current
Voltage
Output Response Time
Update Rate
Table 8.32
Serial DAC Analog Output Specifications
Measured between output terminals and controller common:
1000 V
15 bits (plus polarity bit for voltage outputs)
(0.305 mV for 10 V output range)
(0.00061 mA for 20 mA output range)
For voltage output: ± 0.005 V (0.05% at full scale)
For current output: ± 0.1 mA (0.5% at full scale)
440 ppm/ °C typical
1000 V between input power and signals
0 to 20 mA with 10 V minimum compliance (500 Ω load)
0 to 10 Vdc with 10 mA source capability
1 ms typical
Once per controller A/D cycle nominal. Twice per second maximum for 60 Hz clock rate.
Output changes are step changes due to the fast time constant. All Serial DAC loop outputs are updated at the same time.
Doc. 0600-3120-2000 Watlow Anafaze 195
Chapter 8: Specifications Series D8 User’s Guide
Declaration of Conformity
D8 Series
WATLOW ANAFAZE
314 Westridge Drive
Watsonville, California 95076 USA
Declares that the following product:
Designation: D8 Series
Model Number(s):
Classification:
English
D8(4 or 8)(any digit or letter)-(any 4 digits or letters) -
(any 4 digits or letters)
Installation Category II, Pollution Degree II
Rated Voltage: 12 to 24 VDC
Rated Current: 610mA maximum
Meets the essential requirements of the following European Union Directive(s) using the relevant section(s) of the normalized standards and related documents shown:
89/336/EEC Electromagnetic Compatibility Directive
EN 61326: 1997 Electrical equipment for measurement, control and laboratory use - EMC requirements (Class A)
1995 Electrostatic discharge EN 61000-4-2:
EN 61000-4-3:
EN 61000-4-4:
EN 61000-4-5:
EN 61000-4-6:
1997 Radiated immunity
1995 Electrical fast transients
1995
1994
Surge immunity
Conducted immunity
EN 61000-4-11: 1994 Voltage dips, short interruptions and voltage variations immunity
Déclare que le produit suivant :
Désignation : Série D8
Français
Numéro(s) de modèle(s): D8(4 ou 8)(Tout caractère ou lettre)-(tout groupe de
4 caractères ou lettres)-(tout groupe de 4 caractères ou lettres)
Classification :
Tension nominale :
Installation catégorie II, degré de pollution II
12 à 24V c.c.
Courant nominal : 610 mA maximum
Conforme aux exigences de la (ou des) directive(s) suivante(s) de l’Union
Européenne figurant aux sections correspondantes des normes et documents associés ci-dessous :
89/336/EEC Directive de compatibilité électromagnétique
EN 61326: 1995 Appareillage électrique pour la mesure, la commande et l’usage de laboratoire –—
Prescriptions relatives à la Compatilité Electro
Magnétique (Classe A)
EN 61000-4-2 : 1995 Décharge électrostatique
EN 61000-4-3: 1997 Insensibilité à l’énergie rayonnée
EN 61000-4-4 : 1995 Courants électriques transitoires rapides
EN 61000-4-5 : 1995 Insensibilité aux surtensions
EN 61000-4-6: 1996 Insensibilité à l’énergie par conduction
EN 61000-4-11 : 1994 Insensibilité aux chutes subites, aux courtes interruptions et aux variations de tension
Erklärt, daß das folgende Produkt:
Beschreibung: Serie D8
Deutsch
Modellnummer(n):
Klassifikation:
Nennspannung:
D8(4 oder 8)(jede Zahl oder Buchstabe)(4 beliebige
Buchstaben oder Ziffern )(4 beliebige Buchstaben oder Ziffern)
Installationskategorie II, Emissionsgrad II
12 bis 24 Vdc
Nominaler
Stromverbrauch: max. 610 mA
Erfüllt die wichtigsten Normen der folgenden Anweisung(en) der Europäischen Union unter Verwendung des wichtigsten Abschnitts bzw. der wichtigsten Abschnitte der normalisierten Spezifikationen und der untenstehenden einschlägigen Dokumente:
89/336/EEC Elektromagnetische Übereinstimmungsanweisung
EN 61326: 1997 Elektrog erät e zur Messun g, Regelu ng u nd zum
Lab oreinsatz EMC - Rich tlinien ( Klasse A)
1995 Elektrostatische Entladung EN 61000-4-2:
EN 61000-4-3:
EN 61000-4-4:
EN 61000-4-5:
EN 61000-4-6:
1997 Strahlungsimmunität
1995 Elektrische schnelle Stöße
1995
1994
Spannungsstoßimmunität
Störimmunität
EN 61000-4-11: 1994 Immunität gegen Spannungsgefälle, kurze
Unterbrechungen und Spannungsabweichungen
Declara que el producto siguiente:
Designación: Serie D8
Español
Números de modelo:
Clasificación:
D8(4 ó 8)(qualquier citra ó letra)-(cualquier 4 citras ó letras)-
(cualquier 4 citras ó letras)
Categoría de instalación II, grado de contaminación ambiental II
Tensión nominal: 12 a 24Vcc
Consumo nominal
de energía: 610 mA máximo
Cumple con los requisitos esenciales de las siguientes Directivas de la Unión
Europea, usando las secciones pertinentes de las reglas normalizadas y los documentos relacionados que se muestran:
89/336/EEC - Directiva de Compatibilidad Electromagnética
EN 61326:
EN 61000-4-2:
EN 61000-4-3:
EN 61000-4-4:
1997 Equipo elétrico para medición control y uso en laboratorios - Requisitos de compatibilidad electromagnética (Clase A)
1995 Descarga electrostática
1997
1995
Inmunidad radiada
Perturbaciones transitorias eléc tricas rápidas
EN 61000-4-5:
EN 61000-4-6:
1995
1994
Sobretensión
Inmunidad conducida
EN 61000-4-11: 1994 Caídas de tensión, interrupciones breves y variaciones de tensión
Dean Hoffman
Name of Authorized Representative
Controls Product Group Leader
Title of Authorized Representative
Watsonville, California. USA
Place of Issue
September 12, 2002
Date of Issue
________________________________
Signature of Authorized Representative
25950-00 REV A
196 Watlow Anafaze Doc. 0600-3120-2000
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Table of contents
- 1 Cover
- 2 Warranty
- 3 Table of Contents
- 11 List of Figures
- 15 List of Tables
- 19 System Overview
- 19 Manual Contents
- 20 Getting Started
- 20 Safety Symbols
- 20 Initial Inspection
- 20 Product Features
- 23 D8 Parts List
- 24 Technical Description
- 24 D8
- 26 TB50
- 26 D8 Cabling
- 26 Safety
- 26 External Safety Devices
- 27 Power-Fail Protection
- 29 Installation
- 30 Typical Installation
- 30 Mounting Controller Components
- 31 Recommended Tools
- 31 Mounting the Controller
- 34 Mounting the TB50
- 36 Mounting the Power Supply
- 37 Mounting the Dual DAC or Serial DAC Module
- 38 System Wiring
- 38 Wiring Recommendations
- 39 Noise Suppression
- 40 Ground Loops
- 41 Power Connections
- 41 Wiring the Power Supply
- 43 Connecting the TB50 to the D8
- 44 Testing the System
- 44 TB50 or TB18 Test
- 44 Digital Output Test
- 45 Digital Input Test
- 45 Sensor Wiring
- 46 Input Wiring Recommendations
- 47 Thermocouple Connections
- 48 RTD Input Connections
- 48 Voltage Input Connections
- 48 Current Input Connections
- 49 Wiring Control and Digital I/O
- 49 Output Wiring Recommendations
- 49 Cable Tie Wraps
- 49 Digital Outputs
- 53 Digital Inputs
- 54 TB18 Connections
- 55 TB50 Connections
- 56 Analog Outputs
- 56 Wiring the Dual DAC
- 57 Wiring the Serial DAC
- 58 Connecting the D8 to a DeviceNet Network
- 58 Connector Type
- 59 Pinout
- 60 Network Length
- 60 Baud Rate (Data Rate)
- 60 Node Address (MAC ID)
- 61 Status Indicators
- 63 Communicating by DeviceNet
- 63 Accessing Data with a DeviceNet Master
- 63 Software
- 64 About The Electronic Data Sheet (EDS)
- 64 Configuring a D8 Using RSNetWorx
- 65 Registering the D8 without an EDS File
- 66 Registering the D8 with the Watlow EDS File
- 68 Mapping Polled I/O Data
- 68 Adding the D8 to the Master's Scanlist
- 69 Assigning PLC Addresses
- 71 Sample Ladder Logic
- 71 Accessing Polled I/O Data
- 73 Setting a Value with an Explicit Message
- 75 Reading a Value with an Explicit Message
- 76 Setting Parameters via DeviceNet
- 76 Non-Numeric Settings
- 77 Bit-Wise Values
- 77 Decimal Placement for Numeric Values
- 78 Decimal Placement for Percentage Values
- 78 D8 DeviceNet Overview
- 78 Master/Slave Connections
- 79 Addressing
- 79 Data Types
- 79 DeviceNet Objects
- 79 Identity Object
- 80 Message Router Object
- 81 DeviceNet Object
- 81 Assembly Object
- 84 Connection Object
- 85 Input Object
- 86 Output Object
- 88 Control Object
- 89 Alarm Object
- 90 PV Retransmit Object
- 91 Ratio Object
- 92 Cascade Object
- 93 Global Object
- 95 Operation and Setup
- 95 General Navigation Map
- 97 Keypad
- 98 Displays
- 98 Loop Display
- 99 Alarm Displays
- 101 Job Display
- 102 Changing the Set Point
- 102 How to Manually Change the Set Point
- 102 Other Methods of Changing the Set Point
- 103 Changing the Control Mode and Output Power
- 104 Accessing and Navigating the Setup Menus
- 104 How to Access the Setup Menus
- 104 How to Edit a Setup Parameter
- 105 Setting Up Closed-Loop Control
- 105 Feedback
- 105 Control Algorithm
- 105 Control Output Signal Forms
- 105 Heat and Cool Outputs
- 106 How to Set Up Closed-Loop Control
- 106 Setting Up a Process Input
- 106 Input Scaling
- 107 Input Scaling Example: 4 to 20 mA Sensor
- 108 Input Scaling Example: 0 to 5 Vdc Sensor
- 109 Autotuning
- 109 How Does Autotuning Work?
- 110 Prerequisites
- 110 How to Autotune a Loop
- 111 Setting Up Alarms
- 111 Failed Sensor Alarms
- 113 Process Alarms
- 115 Global Alarm
- 115 Setting Up Process Variable Retransmit
- 116 How to Set Up Process Variable Retransmit
- 116 Process Variable Retransmit Example: Data Logging
- 118 Setting Up Cascade Control
- 118 How the Secondary Set Point is Determined
- 119 Proportional-Only Control on the Primary Loop
- 120 How To Set Up Cascade Control
- 120 Cascade Control Example: Water Tank
- 122 Setting Up Ratio Control
- 123 How to Set Up Ratio Control
- 123 Ratio Control Example: Diluting KOH
- 124 Setting Up Differential Control
- 125 How to Set Up Differential Control
- 125 Differential Control Example: Thermoforming
- 125 Setting Up Remote Analog Set Point
- 126 How to Set Up a Remote Analog Set Point
- 126 Remote Analog Set Point Example: Changing a Set Point with a PLC
- 129 Tuning and Control
- 129 Control Algorithms
- 130 On/Off Control
- 130 Proportional Control (P)
- 131 Proportional and Integral Control (PI)
- 132 Proportional, Integral and Derivative Control (PID)
- 132 Heat and Cool Outputs
- 133 Setting Up and Tuning PID Loops
- 133 Proportional Band Settings
- 133 Integral Settings
- 134 Derivative Settings
- 135 General PID Constants by Application
- 135 Proportional Band Only (P)
- 135 Proportional with Integral (PI)
- 135 Proportional and Integral with Derivative (PID)
- 136 Control Outputs
- 136 Output Control Signals
- 138 Output Filter
- 138 Reverse and Direct Action
- 139 Menu and Parameter Reference
- 139 Operator Parameters
- 140 Set Point
- 140 Mode
- 140 Heat/Cool Output
- 141 Process Variable
- 141 Overview of the Setup Menus
- 143 Global Setup Menu
- 143 Load Setup From Job
- 143 Save Setup As Job
- 144 BCD Job Load
- 144 BCD Job Load Logic
- 145 Mode Override
- 146 Mode Override Digital Input Active
- 146 Power Up Alarm Delay
- 146 Power Up Loop Mode
- 147 Keypad Lock
- 147 Thermocouple Short Alarm
- 147 AC Line Frequency
- 147 Digital Output Alarm Polarity
- 148 MAC ID
- 148 Baud Rate
- 148 Module LED
- 148 Network LED
- 148 Bus Off Count
- 149 Model and Firmware Version
- 149 Input Menu
- 149 Input Type
- 150 Loop Name
- 150 Input Units
- 150 Calibration Offset
- 151 Reversed Thermocouple Detection
- 151 Display Format
- 152 Input Range High
- 152 Input High Signal
- 153 Input Range Low
- 153 Input Low Signal
- 153 Input Filter
- 154 Control Menu
- 154 Heat/Cool Proportional Band
- 155 Heat/Cool Integral
- 155 Heat/Cool Derivative
- 155 Heat/Cool Manual Reset
- 155 Heat/Cool Filter
- 156 Hysteresis
- 156 Restore Automatic Mode
- 157 Output Menu
- 157 Heat/Cool Output Type
- 158 Heat/Cool Cycle Time
- 158 Heat/Cool SDAC Signal
- 158 Heat/Cool SDAC Low Signal
- 158 Heat/Cool SDAC High Signal
- 159 Heat/Cool Action
- 159 Heat/Cool Power Limit
- 159 Heat/Cool Power Limit Time
- 160 Sensor Fail Heat/Cool Output
- 160 Open Thermocouple Heat/Cool Output Average
- 161 Heat/Cool Output Curve
- 161 Alarms Menu
- 161 Alarm High Set Point
- 162 Alarm High Function
- 162 Alarm High Output
- 163 High Deviation Value
- 163 High Deviation Function
- 163 High Deviation Output
- 163 Low Deviation Value
- 163 Low Deviation Function
- 164 Low Deviation Output
- 164 Alarm Low Set Point
- 164 Alarm Low Function
- 164 Alarm Low Output
- 165 Alarm Hysteresis
- 165 Alarm Delay
- 166 Process Variable Retransmit Menu
- 166 Heat/Cool Output Retransmit
- 166 Heat/Cool Retransmit Low Process Variable
- 166 Heat/Cool Retransmit High Process Variable
- 167 Cascade Menu
- 167 Cascade Primary Loop
- 167 Cascade Low Set Point
- 167 Cascade High Set Point
- 168 Ratio Menu
- 168 Ratio Master Loop
- 168 Ratio Low Set Point
- 169 Ratio High Set Point
- 169 Control Ratio
- 169 Ratio Set Point Differential
- 169 I/O Tests Menu
- 170 Digital Inputs
- 170 Keypad Test
- 170 Display Test
- 171 Test Digital Output 1 to 20
- 171 Parameters Only Available via Communications
- 171 Alarm Acknowledge
- 171 Alarm Enable
- 172 Alarm Function
- 172 Alarm Status
- 173 Ambient Sensor Reading
- 174 Heat/Cool Output Action for Watchdog Inactivity Fault
- 175 Troubleshooting and Reconfiguring
- 175 When There is a Problem
- 176 Returning a Unit
- 176 Troubleshooting the Controller
- 177 Process Alarms
- 178 Ambient Warning
- 178 Failed Sensor Alarms
- 178 System Alarms
- 179 Other Behaviors
- 180 Reading the DeviceNet Indicator Lights
- 181 Corrective and Diagnostic Procedures
- 181 Low Power
- 181 Battery Dead
- 182 H/W Error: Gain or Offset
- 183 H/W Error: Ambient
- 184 Keys Do Not Work
- 184 Checking Analog Inputs
- 185 Earth Grounding
- 186 Testing Control Output Devices
- 186 Testing the TB18 and TB50
- 186 Testing Control and Digital Outputs
- 187 Testing Digital Inputs
- 187 Clearing the RAM
- 188 Replacing the Flash Memory Chip
- 190 Installing Scaling Resistors
- 190 Input Circuit
- 191 Current Inputs
- 192 Voltage Inputs
- 193 RTD Inputs
- 194 Scaling and Calibration
- 194 Configuring Serial DAC Outputs
- 195 Configuring Dual DAC Outputs
- 197 Specifications
- 197 System Specifications
- 197 Physical Specifications
- 203 Inputs
- 205 Outputs
- 207 Power Supply
- 209 Dual DAC Specifications
- 210 Dual DAC Inputs
- 210 Dual DAC Analog Outputs
- 211 Serial DAC Specifications
- 212 Serial DAC Inputs
- 213 Serial DAC Analog Outputs
- 215 Glossary
- 223 Index
- 231 Menu Structure