Moore Industries THZ, TDZ Installation Manual

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Page 1

THZ & TDZ

April 2016 235-745-00 F

Smart HART Temperature

Transmitters & Displays

Smart HART T emperature

T ransmitters & Displays

THZ & TDZ

All product names are registered trademarks of their respective companies.

Page 2

The THZ and TDZ Intelligent PC Configuration Software is equipped with our new HelpMap Navigation System. This searchable, comprehensive help system includes all the tables and illustrations you will need to easily setup your unit–from startup to hookup. Reference the HelpMap if you are looking for more detailed information than is provided in this manual. Simply install and run the PC Configuration Software, then click on the questionmark button in the upper right corner of the PC Configuration Program.

Page 3

Introduction.....................................................................................................1

The THZ & TDZ .............................................................................................................. 1

Model and Serial Numbers........................................................................................... 1

Specifications .................................................................................................2

Input Type & Accuracy Table....................................................................................... 3

Ordering Information ......................................................................................4

Additional Parts ............................................................................................................ 4

Dimensions.................................................................................................................5-9

Configuring a THZ or TDZ ...............................................................................9

Installing the Configuration Software....................................................................... 10

Connecting the THZ or TDZ to the PC....................................................................... 10

Necessary Equipment Table ...................................................................................... 10

Using the PC Configuration Program ..........................................................11

Using the HART Communicator...................................................................13

Programming when a Device Description is Available ........................................... 13

The HART Communicator Menu with a Device Description ................................... 15

The HART Communicator Menu without a Device Description.............................. 17

Installation.....................................................................................................18

Operation.......................................................................................................19

Customer Support ........................................................................................19

T ro ubleshooting the PC Software................................................................20

Appendix A: Intrinsic Safety........................................................................21

Page 4

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THZ & TDZ

Introduction

This is the users’ manual for Moore Industries’ family of Smart HART Temperature Transmitters. It contains all of the information needed to configure, install, operate, and maintain the THZ and TDZ. In many cases, more detailed information is provided through the HelpMap portion of the configuration software. (Run the Configuration Software then press the questionmark button on the upper-right

The THZ & TDZ

The THZ and TDZ are 2-wire (loop-powered), userconfigurable, HART®-based temperature transmitters. Typically paired with a complete temperature assembly from our extensive line of durable housing and enclosure options. Their size, accuracy, and compatibility make them the ideal solution when measurements must be made in remote or otherwise difficult-to-ac-

cess locations. side of the screen.) If you would like additional assistance, call one of our STAR centers.

The following guidelines are used in this manual:

WARNING

- Hazardous procedure or condition that

could injure the operator.

Model and Serial Numbers

Moore Industries uses a system of model and serial

numbers to keep track of all of the information on

every unit it sells and services. If a problem occurs

with a THZ or TDZ, check for a tag affixed to the unit

listing these numbers. Supply the Customer Support

Caution

- Hazardous procedure or condition that

representative with this information when calling. could damage or destroy the unit.

Note

- Information that is helpful for a procedure,

condition, or operation of the unit.

Figure 1. The THZ and TDZ Smart HART Temperature Transmitters’ remotely programmable input and combination analog/digital output make it the perfect answer to problems encountered when interfacing control room equipment and field sensors.

THZ or TDZ Smart HART

Temperature T ransmitter

(HART Slave Device)

(THZ in LH

housing shown)

NOTE:

The HART Communicator or PC with Smart HART Interface Cable may be connected at any termination point on the signal loop. The HART Communicator and the THZ Signal loop must have between 250 and 1100

–

4-20mA Analog with Digital HART

superimposed

load for proper communications.

250

Resistor

HART Communicator

(Secondary Master)

Power

Supply

PC with HART Modem

–

(Primary Master)

Running Moore Industries’

PC Configuration Software,

OR a DCS, PLC, SCADA,

Data Recorder, Indicator, or

other HART Communicating

Device

The Interface Solution Experts 1

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THZ & TDZ

Specifications

HART

Performance

Address Range: 0-15 (1-15

are for multidrop loops)

Transmission Speed:

1200 baud

Character Format:

1 Start Bit - 8 Data Bits 1 Odd Parity Bit - 1 Stop Bit

Input Accuracy: Refer to Table 1 (page 3)

Analog Output Accuracy:

±0.015% of span Overall Accuracy: The overall accuracy of the unit is the combined input and output accuracy. It includes the combined effects of linearity, hysteresis, repeatability, and adjustment resolution. It does not include ambient temperature effect. For T/C input only, add the Reference Junction Compensation error

Reference Junction Compensation: ±0.45°C

(±0.81°F)

Stability: see Table 4 Isolation: THZ: HPP,

1000Vrms input-to-output continuous; DIN, 500Vrms input-to-output continuous; THZ [DH] & TDZ: 500Vrms input-to-output continuous, and will withstand a 500VAC dielectric strength test for one minute without breakdown Response (Rise) Time: 100 msec maximum for the output to change from 10% to 90% for an input step change of 0% to 100%

Step Response Time:

THZ: 600 msec maximum, 500 msec typical from the time an input is applied to the output reaching 90% of its final value; THZ [DH] & TDZ: 700 msec maximum, 500 msec typical from the time input is applied to the output reaching 90% of its final value Ripple: Less than 10mV peak-to-peak measured across a 250-ohm load resistor at frequencies up to 120Hz

Over-voltage Protection:

Input, ±5Vdc peak, maximum; Output, 48Vdc, maximum

Performance

(Continued)

Display

(THZ [DH] &

TDZ only)

Digital Input Filter: User-

programmable; 50/60 Hz

Power Supply Effect:

±0.002% of span per 1V change Load Effect: Negligible within specified power limits

Load Capability:

Load = (Vdc - 12) Burnout Protection: User-

programmable, Upscale to

23.6mA; Downscale to 3.6mA

Output Current Limiting:

3.8mA and 21.6mA for input over range; 25mA maximum

T/C Input Impedance:

40MΩ, nominal

RTD &

250µA ±10%

RTD Lead Wire Resistance Maximum: RTD resistance

+ 2X lead wire resistance < 4000Ω; Recommended lead wire resistance for three wire connections: <35Ω/wire; 10Ω copper sensor <5Ω

Sensor Lead Resistance Effect: 1.0Ω in reading/Ω of

lead resistance for 2-wire sensors; 1.0Ω in reading/Ω of lead of unbalanced resistance for 3-wire sensors; no effect on 4-wire sensors

Damping:

User set; 0-30 seconds

Resolution:

Input, 20-bit; Output, 16-bit Supply Range: 12-28V I.S.; 12-42V normal operation

Type: THZ [DH]; Top Row, 18mm (0.5 inch) high black digits on a reflective background; Bottom Row, 10mm (0.4 inch) high digits on a reflective background; Two-digit HART address indicator; % of Span shown on a bar graph with upper and lower out-of-range indicators; TDZ; Top Row, 10mm (0.4 inch) high black digits on a reflective background; Bottom Row, 6mm (0.225 inch) high digits on a reflective background; Two-digit HART address indicator Format: Two rows of five alphanumeric characters

0.024

ΩΩ

Ω Excitation:

ΩΩ

Display

(Continued;

THZ [DH] &

TDZ only)

Ambient

Temperature

Weight

Decimal Points: Automati-

cally adjusting decimal point with a two decimal-place maximum (Analog output display is always two decimal places)

Range: -99999 to 99999 Minimum Display Span:

1.00

Operating & Storage Range:

-40°C to +85°C (-40°F to +185°F) Relative Humidity: 0-95%, non-condensing

Ambient Temperature Effect: See Tables 2 & 3 Effect on Reference (Cold) Junction Compensation:

±0.005°C per °C change of ambient temperature RFI/EMI Immunity: THZ: HPP 10V/M, and DH, DIN 30V/M when tested according to SAMA 33.1 abc with 0.5% of span or less error; 10V/M @ 80-1000MHz, 1KHz AM when tested according to IEC 1000-4-3-1995; TDZ: 20V/M when tested according to SAMA 33.1 abc with 0.5% of span or less error; 10V/M @ 80-1000MHz, 1 KHz AM, when tested according to IEC 1000-4-3-1995 Startup Time: Performance within specification 8 seconds after power is applied Noise Rejection: Common mode, 100dB @ 50/60Hz; Normal Mode: 70dB typical at 200mV peak-to-peak @ 50/60Hz

THZ DIN: 221 grams (7.9 oz) THZ HPP: 101 grams (3.6 oz) THZ HPP in LH1:

434 grams (15.5 oz)

THZ HPP in LH2:

654 grams (1 lb., 7.3 oz) THZ DH: 1.75kg (3 lb, 14.5 oz)

TDZ HP: 188 grams (6.7 oz) TDZ HP in BH2NG:

1.42 kg (3 lbs., 2.5 oz)

TDZ HP in D-BOX:

678 grams (1 lb., 7.7 oz)

Specifications and information subject to change without notice.

2 The Interface Solution Experts

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THZ & TDZ

Table 1. Input Types, Ranges, Minimum Span and Maximum Range Specifications, and Accuracy of the THZ and TDZ

Input Type

Platinum

RTD

Nickel

Copper

Direct Resistance

ΩΩ

Ω

ΩΩ

Potentiometer

α α

0.003850

0.003902

0.003916

0.00672

0.00427

n/a

Ω Ω

Ω

Ω Ω

100

200

300 400

500

1000

100 200 400 500

1000

100 120

9.035

0-4000Ω

4000Ω

Conformance

Range

-200 to 850°C

-328 to 1562°F

-100 to 650°C

-148 to 1202°F

-200 to 510°C

-328 to 950°F

-80 to 320°C

-112 to 608°F

-50 to 250°C

-58 to 482°F 0-4000Ω

0-100%

Minimum

Span

10°C

(18°F)

10Ω 10%

Input

Accuracy

±0.1°C

(±0.18°F)

±0.85°C

(±1.53°F)

±0.4Ω

±0.1%

Maximum

Range

-240 to 960°C

-400 to 1760°F

-150 to 720°C

-238 to 1328°F

-240 to 580°C

-400 to 1076°F

-100 to 360°C

-148 to 680°F

-65 to 280°C

-85 to 536°F 0-4000Ω

0-100%

Sensor-to-

Transmitter

Matching

Up to ±0.014°C (±0.025°F) system accuracy*.

*High-accuracy measurements are achieved by using a 4-wire, 1000Ω platinum RTD with a span of 100°F (50°F minimum) calibrated in our sensor-matching calibration bath.

Millivolts

n/a

-180 to 760°C

-292 to 1400°F

-150 to 1370°C

-238 to 2498°F

-170 to 1000°C

-274 to 1832°F

-170 to 400°C

-274 to 752°F 0 to 1760°C

32 to 3200°F

0 to 1760°C

32 to 3200°F

400 to 1820°C 752 to 3308°F

-130 to 1300°C

-202 to 2372°F 0 to 2300°C

32 to 4172°F

-50 to 1000mV

35°C 63°F

40°C 72°F

35°C 63°F

50°C 90°F

75°C

135°F

45°C 81°F

100°C 180°F

4mV

±0.25°C

(±0.45°F)

±0.3°C

(±0.54°F)

±0.2°C

(±0.36°F)

±0.25°C

(±0.45°F)

±0.55°C

(±0.99°F)

±0.55°C

(±0.99°F)

±0.75°C

(±1.35°F)

±0.4°C

(±0.72°F)

±0.8°C

(±1.44°F)

15µV

-210 to 770°C

-346 to 1418°F

-270 to 1390°C

-454 to 2534°F

-270 to 1013°C

-454 to 1855.4°F

-270 to 407°C

-454 to 764.6°F

-50 to 1786°C

-58 to 3246.8°F

-50 to 1786°C

-58 to 3246.8°F 200 to 1836°C

392 to 3336.8°F

-270 to 1316°C

-454 to 2400.8°F 0 to 2338°C

32 to 4240.4°F

-50 to 1000mV

The Interface Solution Experts 3

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THZ & TDZ

Ordering Information

Unit

THZ

Smart HART Temperature Transmitter

THZ

(DH Housing) DualCompartment Smart HART Temperature Transmitter with Display

TDZ

Smart HART Temperature Transmitter with Display

Input

PRG

Programmable with standard HART Communicator, HART-based control system, or Moore Industries’ PC-based Configuration Software

Output

4-20MA

Scaleable to narrower ranges

Power

12-42DC

12-30DC

for I.S. applications

Housing

DIN DIN-style aluminum housing mounts on 32mm G-type (EN50035) and

35mm Top Hat (EN50022)

HPP Hockey-puck housing for mounting in connection heads LH1NS LH1 head with two entry ports: ½-inch NPT conduit and process–black

PBT polyester cover LH1MS LH1 head with two entry ports: M20 cable and ½-inch NPT process–black PBT polyester cover LH1CS LH1 head with two entry ports: M20 cable and G½ (BSP) process–black PBT polyester cover LH2NS Explosion-Proof LH2 head with two entry ports: ½-inch NPT conduit and process–black metal cover LH2MS Explosion-Proof LH2 head with two entry ports: M20 cable and ½-inch NPT process–black metal cover

CH6 Polypropylene connector head DH THZ [DH] replacement transmitter with no enclosure

DH2NG THZ [DH] enclosed in a 2-Hub, dual-compartment enclosure with two,

½-inch NPT entry ports and a glass cover DH2TG THZ [DH] enclosed in a 2-Hub, dual-compartment enclosure with two, ¾-inch NPT entry ports and a glass cover DH2MG THZ [DH] enclosed in a 2-Hub, dual-compartment enclosure with two, M20 x 1.5 entry ports and a glass cover

BH2NG 2-Hub, explosion-proof enclosure with two, ½-inch NPT entry ports and a glass cover BH2TG 2-Hub, explosion-proof enclosure with two, ¾-inch NPT entry ports and a glass cover BH2MG 2-Hub, explosion-proof enclosure with two, M20 x 1.5 NPT entry ports and a glass cover

BH3NG 3-Hub, explosion-proof enclosure with three, ½-inch NPT entry ports BH3TG 3-Hub, explosion-proof enclosure with two, ¾-inch side-entry NPT

ports, one ½-inch bottom port, and a glass cover BH3MG 3-Hub, explosion-proof enclosure with two, M20 x 1.5 side-entry ports, one ½-inch bottom-entry port, and a glass cover

D2LC 2-Hub, low base, clear cover, NEMA 4X (IP66) enclosure HP Hockey-puck housing and spring clips DN Snap-in mounting for HP case on TS-32 DIN-rail FL Mounting flanges on HP suitable for relay track or screw mounting FLD Mounting flanges on HP suitable for 3½” relay track mounting

P suffix indicates enclosure comes equipped with base and U-bolts for mounting on a 2-inch pipe (i.e. BH2NGP)

To order, specify: Unit / Input / Output / Power [Housing] Model Number Example: THZ / PRG / 4-20MA / 12-42DC [DH2NG]

Additional Parts

Every THZ or TDZ order comes with one copy of our Configuration Software on a 3½-inch floppy disk (Windows® 95, 98, and NT 4.0 compatible). The HART RS-232 Modem and the HART Communicator must be purchased separately. However, the THZ and TDZ transmitters work with any standard, thirdparty communicator, such as the Fisher-Rosemount Model 275.

4 The Interface Solution Experts

Additional accessories are available as follows:

Part Number

235-75120-05

Part Number

803-048-26

Intelligent PC Configuration Software

(One copy comes free with each order)

HART-to-RS232 Smart Interface Cable with HART Modem

Page 9

Figure 2. BH Housing Dimensions (For use with the TDZ)

THZ & TDZ

102mm

(4.02 in)

119mm

(4.69 in)

57mm

(2.24 in)

102mm

(4.02 in)

(.87 in)

(.38 in)

(2.68 in)

84mm

(3.31 in)

22mm

10mm

68mm

25mm

(1.00 in)

64mm

(2.52 in)

602.78

DEG C

+PS

-PS 1 2

TDZ

76mm

(2.99 in)

68mm

(2.68 in)

124mm

(4.88 in)

Table 2. THZ [DH] Ambient Effects Table Table 3. THZ [DIN], [HPP], and TDZ Ambient Effects Table

TDZ [HP], THZ [DIN] & THZ [HPP] Ambient Temperature Effects

Sensor

Type

RTD

Millivolt

Ohm

Digital Accuracy per 1°C

(1.8°F) change in Ambient

0.003°C

T/C

0.003°C

0.00025mV

0.007Ω

Analog Accuracy per 1°C

(1.8°F) change in Ambient

0.004% of span (16mA)

Sensor

Type

RTD

T/C

Millivolt

Ohm

THZ [DH] Ambient Temperature Effects

Digital Accuracy per 1°C

(1.8°F) change in Ambient

0.0015°C

0.00025mV

0.007Ω

Analog Accuracy per 1°C

(1.8°F) change in Ambient

0.001% of span (16mA)

Table 4. Long-Term Stability Specification Table

Stability (%

of maximum

span)

T/C, mV

RTD, Ohm,

Potentiometer

Input to Output Input to HART

1 year

3 years

0.08

0.09

0.14

0.16

5 years

0.18

0.21

1 year

.008

.047

The Interface Solution Experts 5

2 years

.014

.081

5 years

.019

0.104

Page 10

THZ & TDZ

Figure 3. THZ Hockey-Puck (HPP Housing) Dimensions

TOP BOTTOM

52mm

(2.04 in)

25mm

(1.0 in)

–PS+PS

49mm

(1.92 in)

27mm

(1.05 in)

4 X 40

0.125 in depth 2 PLACES

33mm

(1.3 in)

SIDE

40mm

(1.56 in)

33mm

(1.3 in)

Figure 4. TDZ Hockey-Puck (HP Housing) Dimensions

76mm

(2.99 in)

TDZ

18mm

(.70 in)

+PS

-PS 1 2

(1.69 in)

FRONT VIEW

43mm

64mm

(2.52 in)

62mm

(2.44 in)

83mm

(3.27 in)

66mm

(2.60 in)

61mm

(2.40 in)

SIDE VIEW

6 The Interface Solution Experts

Page 11

Figure 5. THZ DIN Dimensions

138mm

(5.43 in)

WHEN INSTALLED

THZ & TDZ

133mm

(5.24 in)

WHEN INSTALLED

123 4

SMART HART TEMPERATURE TRANSMITTER

THZ

80mm

(3.15 in)

+PS –PS

25mm

(1.0 in)

Figure 6. LH Housing Dimensions (For use with the THZ HPP)

Safety Lock

(LH2 only)

Conduit

Entry Port

9mm

(0.35 in)

87mm

(3.43 in)

30mm

(1.18 in)

110mm

(4.33 in)

DIA. 72mm

(DIA. 2.83 in)

113mm

(4.45 in)

92mm

(3.62 in)

61mm

(2.40 in)

Mounting

Holes (2)

43mm

(1.69 in)

51mm

(2.01 in)

10-32

Process Connection

1/2-in NPT (N and M models) or

G½ (BSP) (C models)

Metal Tag

M4.0 x 0.7

(4 places)

Ground

I.D. 62mm x 19mm Deep

(2.44 in x 0.75 in Deep)

Instrument Mounting Holes 40mm (1.56 in)

Instrument Mounting Holes 33mm (1.30 in)

89mm

(3.5 in)

84mm

(3.31 in)

61mm

(2.40 in)

2-in Pipe Bracket

Mounting Holes (4)

61mm

(2.40 in)

The Interface Solution Experts 7

Page 12

THZ & TDZ

Figure 7. THZ Dual Compartment (DH Enclosure) Dimensions.

CONDUIT PORTS

ENTER BEHIND THE

UNIT TO PROTECT THE

THZ [DH] DISPLAY

FROM HUMIDITY

CONNECTIONS

(METAL COVER)

COVERS AT EACH END OF THE

THZ [DH] PROVIDE EASY ACCESS

TO THE DISPLAY (FRONT) OR THE

CONDUIT CONNECTIONS (BACK)

CAPTIVE SCREWS

FOR REMOVING THE

100

THZ FROM THE DH

DISPLAY

(GLASS

COVER)

8 The Interface Solution Experts

49mm

(1.93 in)

102mm

(4.02 in)

70mm

(2.76 in)

124mm

(4.88 in)

154mm

(6.06 in)

90mm

(3.54 in)

90mm

(3.54 in)

Page 13

Figure 8. D-BOX Housing Dimensions (For use with the TDZ)

130mm (5.12 in)

118mm

(4.65 in)

112mm

(4.41 in)

64mm

(2.52 in)

83mm

(3.27 in)

Interior Diameter

81mm (3.2 in)

116mm (4.57 in)

THZ & TDZ

Conduit

Fitting

Body

Bezel

Cover

Instrument

Tag

Configuring a THZ or TDZ

One of the benefits of these transmitters is that there are no internal or external controls to adjust or settings to change. All operating parameters are set using either a HART Communicator or a PC and Moore Industries' Intelligent PC Configuration software.

The software settings are "downloaded" to the transmitter in the form of a Configuration File and stored in the instruments’ memory. You can save a backup copy of the file on your PC hard drive or disk. The transmitter communicates with the PC through a HART modem connection to the PC’s serial port.

You can configure the THZ or TDZ with either a standard HART Communicator or our PC software. Figure 10 and Table 5 provide the information you need to configure your unit.

27mm

84mm

(3.31 in)

Using a PC...

If you are going to use a PC to configure your unit, first install the software as described on the next page, then setup the hardware as shown in Figure 10. Use our comprehensive HelpMap Navigation System in the PC Configuration Program for further instructions on setting up your THZ or TDZ.

(1.06 in)

Note:

To use the HelpMap Navigation System, click on the

button

command bar to start this advanced help tool

click on

HELP

, then

HelpMap

on the

The Interface Solution Experts 9

Page 14

THZ & TDZ

Installing the Configuration Software

Refer to Table 5 for the equipment needed.

1. Insert the diskette labeled “TDZ/THZ Configuration Program Installation Disk 1 of 3” into the floppy drive of the PC.

2. In Windows® 95/98/NT, go to the “Start” menu, and access “Settings”, then “Control Panel”, and finally “Add/Remove Programs”.

3. Click “Install” and follow the instructions on the screen.

Note:

Two utility disks are also provided with your PC Pro-

gram. These are for users of Windows 95 with

Internet Explorer 3.0x, or Windows NT.

Do not install these if you are using Windows 98.

Once the Configuration Program is installed on the PC, the THZ or TDZ can be connected to equipment to simulate input and monitor output. The user can then change the transmitter’s operating parameters.

No Transmitter Needed

It is not necessary to connect the transmitter to a PC to create configuration files using the software. The Configuration Program can be run without connecting a transmitter, and without benefit of input from a sensor or transmitter.

most

parameters can be set

This makes it easy to create a set of operating parameters, save them to disk, and download them to one or more transmitters at a later time.

The THZ or TDZ

must

be connected to the PC in order to: trim input, trim output, assign a tag, perform a loop test, receive (via download) a configuration file, and save the configuration file from the transmitter’s memory.

Connecting the THZ or TDZ to the PC

To set any of the options, you must first connect the unit to the PC. The THZ hockey-puck, THZ DIN, THZ DH, and TDZ all have the same terminal designations, and all can be setup using the connections shown in Figure 10, page 12.

Establish a simple current loop for the transmitter by connecting a 24-volt power supply, a 250Ω resistor, and the transmitter in series. See Table 5 below for information on the necessary equipment.

Then connect a suitable HART modem. Connect the RS-232 end of the modem to the PC’s COM port, then connect the HART output end of the modem (two hookup wires) across the transmitter or the load resistor.

Table 5. Assembling the equipment needed to configure the THZ or TDZ

Device Specifications

Variable Input Simulator for Thermocouple,

RTD, Millivolt, Potentiometer, or Decade

Resistance Box

Power Supply

Precision Load Resistor

Multimeter (optional)

Personal Computer

(Required only if

using a PC for setup)

HART Modem Cable

(Required only if using a PC)

Moore Industries PC

Configuration Software

(Required only if using a PC)

Variable; Accurate to ±0.05% of unit span

24Vdc, ±10%

250 ohms, ±0.01% HART specifies that total loop resistance is to be maintained between 250 ohms and 1100 ohms.

Accurate to ±0.025% of span; e.g., Fluke Model 87 80386-based(or faster) IBM PC, or 100% compatible;

1.44MB floppy diskette drive 4Mb free RAM; 8Mb recommended; 20Mb free disk space on hard drive (More RAM & hard disk space is required for Windows 98 or NT) Microsoft Windows® 95, 98, or NT Internet Explorer 3.0+ (required for HelpMap) 1 (one) serial port (COM 1, 2, 3, or 4) set to 4800 baud, no parity, 8 data bits, and 1 stop bit

Moore Industries part number 803-048-26, or equivalent

Version 1.0 or greater, successfully installed to the hard drive

(Required only if NOT using a PC)

HART Communicator

10 The Interface Solution Experts

Fisher-Rosemount Model 275 or equivalent

Page 15

THZ & TDZ

Figure 9. Most of the THZ or TDZ Operating Parameters can be set from the Main Screen of the Configuration Program.

Using the PC Program

Once the default configuration has been saved to disk, it is safe to program the other parameters. For detailed information on how to use our configuration software, access our HelpMap Navigation System. The PC Software is made up of these sections:

1. ID Status–This portion of the screen displays the activity of the connected unit. It will show you if the unit is

Idle, Uploading, Downloading, Monitoring

Searching

2. Device Information–The

grammed Date, Descriptor, Address, Message Device Configuration

transmitter.

3. Input Configuration–Use this section to select and configure the sensor type. Choose from

couple, RTD, Millivolt, Resistance

Device ID, Tag, Pro-

all display properties of the

, or

Potentiometer

, or

, and

Thermo-

4. Variables–Watch this section to track all the information that your transmitter is monitoring.

5. Device Status–Displays the status of the PC’s communication with the transmitter. Any malfunction reported by the transmitter will be displayed here.

6. Communications–Shows the status of communications between the THZ or TDZ and the master. The green flashing light verifies that the transmitter is communicating successfully with the PC.

7. Input/Output/Trimming/Custom Curve Tab–This set of tabs allows you to select specific functions for the PC software, then download it to the transmitter.

–For detailed information on any THZ- or

TDZ-related topic, access the HelpMap Navigation System by clicking on the questionmark button.

The Interface Solution Experts 11

Page 16

THZ & TDZ

Figure 10. Using a HART Communicator or the PC to configure the THZ or TDZ.

–

LOAD=250 OHMS

12-24Vdc POWER

HART MODEM

CONNECTS TO

SERIAL (COM)

PORT OF PC

CURRENT

METER

–

THZ OR TDZ

(THZ HPP

SHOWN)

–PS+PS

–

NOTE: WHILE THE THZ DIN & DH UNITS AND TDZ HOCKEY-PUCK UNITS WILL VARY IN APPEARANCE FROM THE UNIT SHOWN HERE, IDENTICAL LABELS ARE USED. SIMPLY CONNECT THE WIRES TO THE TERMINALS THAT HAVE THE SAME DESIGNATIONS.

THE HART COMMUNICATOR OR THE PC CAN BE CONNECTED AT ANY POINT ON THE OUTPUT SIDE OF THE LOOP. THE TOTAL LOOP RESISTANCE MUST BE BETWEEN 250 AND 1100 OHMS FOR GOOD HART COMMUNICATIONS TO OCCUR

–

THERMOCOUPLE SIMULATOR

–

MILLIVOLT INPUT

2-WIRE RTD

OR DECADE

RESISTANCE

BOX

3-WIRE RTD OR DECADE RESISTANCE BOX

POTENTIOMETER INPUT

4-WIRE RTD OR DECADE RESISTANCE BOX

12 The Interface Solution Experts

Page 17

THZ & TDZ

Using the HART Communicator

The THZ and TDZ can be programmed using a HART Communicator. If your communicator is equipped with the Device Description (DD) for your transmitter, the following section, “The HART Communicator Menu with a Device Description”, gives an overview of the menus and instructions for programming.

The THZ and TDZ DD is available on the HART Foundation’s Device Driver Library Release October 1999 and later. To determine if your communicator has the appropriate Device Description, press “1” to select “Offline” and press “1” again to select “New Configuration”. A list of companies will appear which will include Moore Industries if you have the appropriate Device Description.

If your communicator is Description that you need, go to “The HART Communicator Menu without a Device Description” on page

17. Some capabilities can only be accessed if your communicator is equipped with a Device Description. Moore Industries can factory-configure parameters that are not accessible through the generic DD.

not

equipped with the Device

Programming when a Device Description is Availab le

With the transmitter connected as illustrated in Figure 10, apply power and turn the communicator on. After a brief self-test, the communicator will show the main menu and identify the unit as a THZ or TDZ.

This section contains the instructions for programming the transmitter using a HART Communicator that has been programmed with a HART Device Description (See pages 14 & 15). If your communicator doesn’t have the appropriate Device Description, skip to “The HART Communicator Menu without a Device Description” on pages 16 & 17.

Figure 11 on the next page shows an overview of the programming menus for the configuration process. This figure will be used frequently.

Moore Industries can update your HART Communicator with all of the latest, approved HART Device Descriptions, including the DD for the THZ or TDZ. Just send your communicator to our Interface Solution Center headquarters in Sepulveda, California with our configuration sheet indicating the DD’s you need. We'll load the Device Descriptions of your choice for a nominal charge.

The Interface Solution Experts 13

Page 18

THZ & TDZ

Figure 11. Summarizing the THZ and TDZ Configuration Menus in a HART Communicator

ONLINE MENU 1 MODEL

2 DEVICE SETUP 3 PV 4 AO 4 LRV 6 URV

Key

% RANGE = Output Current in % of Span # PREAMBLES = Number of Preamble Characters CABLE R = Wire Resistance DAMP = Damping Value DEV ID = Device Identification DIAG = Diagnostic I OUT = Output Current LRV = Lower Range Value MAX VALUE = Maximum Process Value MIN VALUE = Minimum Process Value OFFS = Offset POLL ADDR = Polling Address URV = Upper Range Value WIRE NO = Number of Input Wires

DEVICE SETUP 1 PROCESS

VARIABLE

2 SETUP

PROCESS VARIABLE PV – EGU

2 PV – % RANGE 3 PV – AO 4 TERMINAL TEMP.

SETUP 1 CONFIGURE

SENSOR

2 CONFIGURE OPTIONS

3 CONFIGURE RANGE

4 CONFIGURE OUTPUT

5 CONFIGURE DEV INFO

CONFIGURE SENSOR 1 SENSOR TYPE

2 OUT DAMP 3 SENSOR INFORMATION

CONFIGURE OPTIONS 1 EGU

2 FAIL MODE 3 FILTER 4 BROKEN WIRE

CONFIGURE RANGE 1 SMART RANGING

2 INPUT CAPTURE

CONFIGURE OUTPUT 1 ANALOG OUTPUT

2 HART OUTPUT

CONFIGURE DEV INFO 1 TAG

2 DESCRIPTOR 3 MESSAGE 4 DATE 5 FINAL ASSY # 6 DEVICE ID 7 H/W REVISION

SENSOR TYPE

1 RTD2W 2 RTD3W 3 RTD4W 4 mV 5 OHMS2W 6 OHMS3W 7 OHMS4W 8 T/C 9 T/C w/RJC 10 POTENTIOMETER

SENSOR INFORMATION 1 PV – LSL

2 PV – USL 3 MIN SPAN

SMART RANGING 1 PV LRV

2 PV URV 3 PV LSL 4 PV USL 5 MIN SPAN

ANALOG OUTPUT 1 ANALOG OUT

(ZERO/FULL) 2 OUTPUT TRIM (PROCEED/CHANGE)

HART OUTPUT 1 POLL ADDR

2 BURST MODE 3 BURST OPTION

SET THE: 1 4mA

2 20mA 3 EXIT

RTD 1 PT3850 100

2 PT3850 200 3 PT3850 300...

13 NI 672 120 14 CU 427 9.035

THERMOCOUPLE 1 T/C J

2 T/C K 3 T/C E 4 T/C T 5 T/C R 6 T/C S 7 T/C B 8 T/C N 9 T/C C

3 DIAGNOSTICS & SERVICES

4 REVIEW

14 The Interface Solution Experts

6 CONFIGURE DISPLAY

DIAGNOSTICS & SERVICES

1 TEST DEVICE (STATUS) 2 SENSOR TRIM 3 LOOP TEST

REVIEW 1 DEVICE

PARAMETERS

2 DEVICE INFORMATION

CONFIGURE DISPLAY 1 MODE

(PV, Ma, TOGGLE, %)

SENSOR TRIM 1 SENSOR TRIM

2 FACTORY TRIM

LOOP TEST 1 4mA

2 20mA 3 OTHER 4 END

DEVICE PARAMETERS MODEL

# WIRES SENSOR TYPE FILTER % RANGE LRV URV OUT DAMPING MIN SPAN EGU SENSOR S/N LSL USL FAIL STATE LIN BROKEN WIRE RJC TERM TEMP.

DEVICE INFORMATION TAG

DESCRIPTOR MESSAGE DATE UNIVERSAL REV FIELD DEV REV SOFTWARE REV HARDWARE REV PHYSICAL SIGNL CODE POLL ADDR BURST MODE NUM REQ PREAMS

Page 19

THZ & TDZ

The HART Communicator Menu With a Device Description

A. Displaying the Current Pr ocess Value

The ONLINE MENU displays the current process value (i.e. °C in a temperature application), the lower and upper range values, and the actual output current. Use the DEVICE SETUP menu to configure the THZ or TDZ.

B. Configuring the Transmitter’ s Input

In the “Configure Sensor” Menu, you can program the type of sensor being used, the sensor’s upper and lower range values, damping time, and the number of input wires.

Damping smooths input fluctuations by taking an average over a user-programmed time period, and using this value for the THZ or TDZ output. The damping time can be set between 0 and 30 seconds.

C. Configuring the Analog Output

In the “Analog Output” menu, you can enter the output range values and perform output trimming.

E. Configuring the Device Information

In the “Configure Dev Info” menu, you can enter a tag (8 characters), date, descriptor (i.e. a location code of up to 16 characters), a message (32 characters), and final assembly numbers for the transmitter. You cannot change the device ID or the Hardware Revision in the field.

F . Changing Loop Current to a Fixed Value

The “Diagnostics & Services” menu allows you to change the loop current to a fixed output. Once the transmitter’s output current is set to a known value, it can be checked against the value being received by your receiving device.

Note:

The THZ or TDZ must be removed from automatic

control in order to run the Loop Test.

G. T rimming the Input Sensor

From the “Sensor Trim” menu, you can enter the offset for a non-calibrated sensor or reset the unit to the factory settings. A feature new to the THZ is the ability to trim one or two points along any portion of the range, not just zero or full span.

D. Configuring the HART Output

In the “HART Output” menu, you can enter a polling address between 0 and 15 for an individual THZ or TDZ, turn burst mode on/off, and change options.

Note:

If the polling address is set to 0, the transmitter is

automatically set to analog mode. Multiple units on

the same bus must have different addresses.

Offset for non-calibrated sensors can be entered two different ways. SENSOR TRIM is used to enter the offset because it allows the unit to synchronize with the input. This command can only be used in a controlled environment because fluctuating input makes it difficult for the unit to synchronize with the input.

Note:

Once the factory trim process is complete,

all other trim values are erased. Reset takes

5 seconds. Pushing Abort during this time

stops the process.

H. Checking on Your Transmitter’s Settings

Use the “Review” menu to check on the transmitters’ settings without the danger of inadvertently changing any of them.

The Interface Solution Experts 15

Page 20

THZ & TDZ

Figure 12. Generic Menu Overview

ONLINE GENERIC 1 DEVICE SETUP 2 PV 3 PV AO 4 PV LRV 5 URV

Key

AI % = % of Analog Input AO = Analog Output DAMP = Damping Value DEV ID = Device Identification DIAG = Diagnostic D/A TRIM = Trim Digital/Analog LRV = Lower Range Value LSL = Lower Sensor Level NUM REG PREAMS = Number of Preamble Characters POLL ADDR = Polling Address PV = Process Variable SNSR = Sensor URV = Upper Range Value USL = Upper Sensor Level XFER FNCTN = Transfer Function

DEVICE SETUP 1 PROCESS VARIABLES

2 DIAG/SERVICE

3 BASIC SETUP

4 DETAILED SETUP

5 REVIEW

PROCESS VARIABLE 1 SNSR 2 AI % 3 A01 DISPLAY

DIAG/SERVICE 1 TEST DEVICE 2 LOOP TEST 3 CALIBRATION 4 D/A TRIM BASIC SETUP 1 TAG 2 PV UNIT 3 RANGE VALUES

4 DEVICE INFORMATION 5 PVXFER FNCTN 6 PV DAMP

DETAILED SETUP

1 SENSORS

2 SIGNAL CONDITION

3 OUTPUT CONDITION

4 DEVICE INFORMATION

CALIBRATION 1 APPLY VALUES 2 ENTER VALUES

RANGE VALUES 1 PVLRV 2 URV 3 PVLSL 4 USL DEVICE INFORMATION 1 DISTRIBUTOR 2 MODEL 3 DEV ID 4 TAG 5 DATE

SENSORS 1 PV 2 PV SNSR 3 SENSOR INFORMATION

SIGNAL CONDITION 1 SNSR DAMP 2 URV 3 AI LRV 4 AI XFER FNCTN 5 AI % RANGE

OUTPUT CONDITION 1 ANALOG OUTPUT

2 HART OUTPUT

ENTER VALUES 1 PVLRV 2 URV 3 PVUSL 4 PVLSL

ANALOG OUTPUT 1 AO1 2 AO ALRM TRIP 3 LOOP TEST 4 D/A TRIM 5 SCALED D/A TRIM

HART OUTPUT 1 POLL ADDR 2 NUM REG PREAMS 3 BURST MODE 4 BURST OPTION

16 The Interface Solution Experts

Page 21

THZ & TDZ

The HART Communicator Menu Without a Device Description

This section contains the instructions for programming a THZ or TDZ using a HART communicator without a Device Description. If your communicator has a Device Description, please see “The HART Communicator Menu with a Device Description” on page 15.

A. Displaying the Current Process V alues

The initial screen, the “Online Generic” menu, displays the process value, analog output, and the programmed upper and lower parameters of the process value. The generic overview menu (Figure 12 on page 16) shows the screen. Use the DEVICE SETUP menu for configuring your THZ or TDZ.

B. Configuring THZ or TDZ Input

The “Basic Setup” menu allows you to enter a name for an individual transmitter, the units of measurement, the upper and lower range and sensor values, and a damping time between 0 and 30 seconds.

C. Configuring THZ Analog Output

The “Analog Output” menu displays the analog output, changes the loop current to a fixed value so that it can be checked against the value being received and displayed by your receiving device, and enters and trims the sensor.

D. Configuring HART Output

From the “HART Output” menu, you can enter the polling address and display the number of preamble characters sent by the master to the slave to ensure synchronization.

If the polling address is set to 0, the THZ or TDZ is automatically set to analog mode. Multiple units on the same bus must have different addresses.

Damping smooths input fluctuations by taking an average over a user-programmed time period and using this value for the output.

The Interface Solution Experts 17

Page 22

THZ & TDZ

Installation

Installation consists of physically mounting the unit and completing the electrical connections.

Mounting the THZ or TDZ

The hockey-puck THZ fits inside a 30-35mm connection head (such as the LH1) using captive mounting screws. The DIN THZ can be mounted on standard DIN mounting rails. The dual-compartment [DH] THZ installs into the [DH] enclosure and can be mounted to a wall or 2-inch pipe. The hockey-puck TDZ can be mounted with rails, flanges, or in one of our larger housings, such as the D-BOX or BH.

Making the Electrical Connections

The connections for the various inputs are shown in Figure 10 on page 12. The figure shows a single transmitter. If you are using multiple units, connect them using the connections shown in Figure 13.

In multi-drop networks, the unit’s receiving device is normally a HART-communicating control system acting as the HART Primary Master. The control system uses each transmitters’ individual address to access real-time process data, sensor diagnostics, and THZ diagnostic data. The address is also used to locate the appropriate THZ or TDZ, to initiate configuration, and to calibrate. A HART communicator, acting as the HART Secondary Master, can be used to simultaneously access information from, or transmit configuration information to the transmitter from anywhere along the HART digital link.

Make sure that the total loop resistance is at least 250Ω so that the 4-20mA signal containing the HART protocol is not shorted. If loop resistance is less than 250Ω, add a resistor.

Recommended Ground Wiring Practices

Moore Industries recommends the following ground wiring practices:

• Any Moore Industries product in a metal case or housing should be grounded.

• The protective earth conductor must be connected to a system safety earth ground before making any other connections.

• All input signals to, and output signals from, Moore Industries’ products should be wired using a shielded, twisted pair technique. Shields are to be connected to an earth or safety ground at the unit itself.

• The maximum length of unshielded input and/or output signal wiring should be two inches.

CE Conformity

Installation of any Moore Industries’ products that carry the CE certification lines above in order to meet the requirements set forth in applicable EMC directives (EN55011, EN 50082-1, EN50082-2, etc.) Consult the factory for the most current information on products that have been CE certified.

must

adhere to the guide-

Figure 13. Connecting the THZ or TDZ in Multi-Drop Configuration

–

TDZ

602.78

ADDR

DE G C

+PS

-PS 1 2

TDZ

(HART

Slave)

18 The Interface Solution Experts

–

THZ

(HART

Slave)

123 4

SMART HART TEMPERATURE

THZ

TRANSMITTER

+PS –PS

THZ (HART Slave)

HARTBased

DCS

(Primary

Master)

– +

HART Communicator (HART Secondary Master)

Page 23

THZ & TDZ

Operation

Once programmed, calibrated, installed, and supplied with the correct power, THZ and TDZ transmitters begin to operate immediately. Depending upon environmental conditions, they can be expected to operate unattended for extended periods of time.

HART Protocol

This section of the manual gives an overview of the HART format used by THZ and TDZ modules during operation. Use the information in this section to process the data provided by the module(s) during operation. For more information on the HART protocol, contact the HART Foundation at:

The HART Communication Foundation 9390 Research Blvd, Suite 1-350 Austin, TX 78759-6540 U.S.A. (512) 794-0369 www.ccsi.com/hart

Device Types

To implement two-way communication between the THZ and the device being used to configure it or receive its information, the THZ or TDZ operates in a HART Master/Slave structure. The THZ or TDZ is the Slave (or slaves in a multidrop network).

There can be two Masters per system: a Primary Master and a Secondary Master. Masters are typically either a HART Hand-Held Communicator or a HARTbased control system.

In many applications, the Primary Master is a HART Hand-Held Communicator. The communicator is used solely as a configuration tool to set up the transmitter, periodically view its real-time process measurement, or view its operating and diagnostic information from a loop termination point.

Digital Signal

One of the advantages of the HART protocol is that the digital information is conveyed by the same wires used to output the 4-20mA signal. After being polled by the master, the THZ or TDZ responds to the inquiry by modulating the 4-20mA current 0.5 mA above or below the output signal. 1200 Hz represents 1 and 2200 Hz represents 0.

Communication Speed and Format

The speed of the HART transmission is 1200 baud. The time delay between a master initiating a request for data from a slave and the slave receiving and acknowledging the request depends upon which command is issued. Generally, a master can poll a slave 2-3 times per second.

The byte structure of the HART signal is: 1 Start Bit, 8 Data Bits, 1 Odd Parity Bit, 1 Stop Bit.

Maintenance

Moore Industries suggests a quick check for terminal tightness and general unit condition every 6-8 months. Always adhere to any site requirements for programmed maintenance.

Customer Support

Moore Industries is recognized as the industry leader in delivering top quality to its customers in products and services. We perform a battery of stringent quality assurance checks on every unit we ship. If any Moore Industries product fails to perform up to rated specifications, call us for help. Our highly skilled staff of trained technicians and engineers pride themselves on their ability to provide timely, accurate, and practical answers to your process instrumentation questions.

Factory phone numbers are listed on the back cover of this manual.

If problems involve a particular THZ or TDZ, there are several pieces of information that can be gathered

before you call the factory

staff get the answers you need

possible.

plete model and serial number(s) of the problem unit(s) and the job number of the original sale.

For the fastest service, gather the com-

that will help our

in the shortest time

The Interface Solution Experts 19

Page 24

THZ & TDZ

Troubleshooting the PC Software

With the large variety of PC manufacturers that exist today, there is always the small chance that a particular PC will not work with a particular piece of software.

We have provided quick fixes in case you have any compatibility problems with the HelpMap Navigation System.

When I try to run the HelpMap software, it gives me an error that says the HHCtrl.ocx is either old or needs to be updated. What can I do?

You are probably running Internet Explorer 3.0 or earlier.

First, verify that you have a copy of Internet Explorer, then check the version by going to the “Help” and “About Internet Explorer” menu in Internet Explorer program. If you have an older version, you can download a newer version of Internet Explorer from the Microsoft website (www.microsoft.com), or you can update your existing software by following the directions below.

We provide two utility disks (labeled and

Utility Disk 2

Explorer so that it can run HelpMap. To install these disks, follow the directions on their labels.

Installing the programs on these two disks should update your Internet Explorer software so that you can access the HelpMap Navigation System.

) that will update your Internet

Utility Disk 1

20 The Interface Solution Experts

Page 25

THZ & TDZ

Appendix A: Intrinsic Safety

This appendix contains the installation diagram for the THZ & TDZ carrying the intrinsically safe option. It also includes guidelines for setting up zener barriers necessary in these types of applications.

REVISION

DRAWING NUMBER

G.E. 02/01

100-100-57 D

ECO 13262

REVISED BY DATE BY APPROVAL

NOTICE RE PROPRIETARY INFORMATION: This drawing and the inform-

ation contained herein are the proprietary property of Moore Industries-

Entity Parameters

International, Inc. (MII) and should not be reproduced or disclosed to any

third party without the written consent of an authorized officer of MII.

= 30 VDC

= 110 mA

= 0.825 W

max

(Power/Loop, +PS & -PS):

cable

+ C

+ L

= 43 nF

= 0 µH

= 43.1 µH/W

³ C

³ L

or V

or I

³ V

³ I

max

{ }

These diagrams must be used to augment the installation instructions earlier in this manual for units that are to operate in areas requiring intrinsically safe instrumentation.

II 2G EEx ib IIC T6

Input device must be 'Agency' approved

per application area (CSA, EECS, FM,

ISSEP, LCIE, SIRA, SAA, TUV, etc...).

CENELEC/ATEX

Class I, Div. 2, Groups A-D.

Intrinsically Safe:

Intrinsically Safe: Class I, Div. 1; Groups A-D.

= 2.96 µF

, T/C, mV:

or C

RTD,

= 2.9 mH

= 110 mA

= 6.51 VDC

or I

or L

or V

CSA International

Hazardous 'Classified' Locations/Areas:

= 0.825 W

CONTROL DRAWING

Low V oltage Directive

When installing any Moore Industries product, always follow all local regulations and standards for grounding, shielding, and safety. The following grounding and wiring practices must be followed in order for the unit(s) to meet the requirements set fourth in the EMC directives EN50082-2 and EN55011.

Grounding

If the unit has a metal case it is to be grounded. (DIN rail mounted units should be mounted on a grounded rail).

Wiring

Twisted shielded wire should be used for all input and output signals. The shields are to be grounded at the units, to earth ground (safety ground). The un-shielded part of the in/output wires should be no longer than 2 inches.

CE Certification-related Guidelines

The following guidelines must be followed in order to comply with EN61010-1 (Low Voltage Directive). If these products are to be used in a non-CE environment, this directive may be disregarded.

Switches and Circuit Breakers

A switch or circuit breaker must be wired in series with the AC power conductors. The switch or circuit breaker used must be located within three meters of the unit.

WARNING:

Terminals on this unit may be connected to

hazardous voltages. Before making ANY

connections to this unit, ALL hazardous voltages

must be de-energized.

The circuit breaker or switch will only remove power to the unit, hazardous voltages may still be connected to other terminals on the unit.

Installation Category

All of Moore Industries’ terminals are rated CAT II, except those with the -RF option. These terminals are rated CAT I.

Equipment Ratings

The THZ and TDZ do not generate hazardous voltages, rather, they accommodate a temperature input, and generates a low voltage current output. Products connected to the THZ or TDZ should be designed to receive these inputs.

Supply Wiring

All power connections should be made with the proper wire.

WARNING:

If this unit is used in a manner not specified by

Moore Industries, the protection provided by the

equipment may be impaired.

The end of each conductor should be stripped no more than 8mm. The end of the stripped wire should be tinned with solder, or inserted into a ferrule and crimped before being placed into a terminal block.

Conductors connected to screw-type connections should have a ring-lug or spade-lug crimped onto the wire end.

Page 30

RETURN PROCEDURES

To return equipment to Moore Industries for repair, follow these four steps:

1. Call Moore Industries and request a Returned Material Authorization (RMA) number. Warranty Repair –

If you are unsure if your unit is still under warranty, we can use the unit’ s serial number to verify the warranty status for you over the phone. Be sure to include the RMA number on all documentation.

Non-Warranty Repair – If your unit is out of warranty , be prepared to giv e us a Purchase Order n umber when you call. In most cases, we will be able to quote you the repair costs at that time. The repair price you are quoted will be a “Not To Exceed” price, which means that the actual repair costs may be less than the quote. Be sure to include the RMA number on all documentation.

2. Provide us with the following documentation:

a ) A note listing the symptoms that indicate the unit needs repair b ) Complete shipping information for return of the equipment after repair c) The name and phone number of the person to contact if questions arise at the factory

3. Use sufficient packing material and carefully pack the equipment in a sturdy shipping

container.

4. Ship the equipment to the Moore Industries location nearest you.

The returned equipment will be inspected and tested at the factory. A Moore Industries representative will contact the person designated on your documentation if more information is needed. The repaired equipment, or its replacement, will be returned to you in accordance with the shipping instructions furnished in your documentation.

WARRANTY DISCLAIMER

THE COMPANY MAKES NO EXPRESS, IMPLIED OR STATUTORY WARRANTIES (INCLUDING ANY WARRANTY OF MERCHANTABILITY OR OF FITNESS FOR A PARTICULAR PURPOSE) WITH RESPECT TO ANY GOODS OR SERVICES SOLD BY THE COMPANY. THE COMPANY DISCLAIMS ALL WARRANTIES ARISING FROM ANY COURSE OF DEALING OR TRADE USAGE, AND ANY BUYER OF GOODS OR SERVICES FROM THE COMPANY ACKNOWLEDGES THAT THERE ARE NO WARRANTIES IMPLIED BY CUSTOM OR USAGE IN THE TRADE OF THE BUYER AND OF THE COMPANY, AND THAT ANY PRIOR DEALINGS OF THE BUYER WITH THE COMPANY DO NOT IMPLY THAT THE COMPANY WARRANTS THE GOODS OR SERVICES IN ANY WAY.

ANY BUYER OF GOODS OR SERVICES FROM THE COMPANY AGREES WITH THE COMPANY THAT THE SOLE AND EXCLUSIVE REMEDIES FOR BREACH OF ANY WARRANTY CONCERNING THE GOODS OR SERVICES SHALL BE FOR THE COMPANY, AT ITS OPTION, TO REPAIR OR REPLACE THE GOODS OR SERVICES OR REFUND THE PURCHASE PRICE. THE COMPANY SHALL IN NO EVENT BE LIABLE FOR ANY CONSEQUENTIAL OR INCIDENTAL DAMAGES EVEN IF THE COMPANY FAILS IN ANY ATTEMPT TO REMEDY DEFECTS IN THE GOODS OR SERVICES , BUT IN SUCH CASE THE BUYER SHALL BE ENTITLED TO NO MORE THAN A REFUND OF ALL MONIES PAID TO THE COMPANY BY THE BUYER FOR PURCHASE OF THE GOODS OR SERVICES.

ANY CAUSE OF ACTION FOR BREACH OF ANY WARRANTY BY THE COMPANY SHALL BE BARRED UNLESS THE COMPANY RECEIVES FROM THE BUYER A WRITTEN NOTICE OF THE ALLEGED DEFECT OR BREACH WITHIN TEN DAYS FROM THE EARLIEST DATE ON WHICH THE BUYER COULD REASONABLY HAVE DISCOVERED THE ALLEGED DEFECT OR BREACH, AND NO ACTION FOR THE BREACH OF ANY WARRANTY SHALL BE COMMENCED BY THE BUYER ANY LATER THAN TWELVE MONTHS FROM THE EARLIEST DATE ON WHICH THE BUYER COULD REASONABLY HAVE DISCOVERED THE ALLEGED DEFECT OR BREACH.

RETURN POLICY

For a period of thirty-six (36) months from the date of shipment, and under normal conditions of use and service, Moore Industries ("The Company") will at its option replace, repair or refund the purchase price for any of its manufactured products found, upon return to the Company (transportation charges prepaid and otherwise in accordance with the return procedures established by The Company), to be defective in material or workmanship. This policy extends to the original Buyer only and not to Buyer's customers or the users of Buyer's products, unless Buyer is an engineering contractor in which case the policy shall extend to Buyer's immediate customer only. This policy shall not apply if the product has been subject to alteration, misuse, accident, neglect or improper application, installation, or operation. THE COMPANY SHALL IN NO EVENT BE LIABLE FOR ANY INCIDENTAL OR CONSEQUENTIAL DAMAGES.

United States • info@miinet.com

Tel: (818) 894-7111 • FAX: (818) 891-2816

Australia • sales@mooreind.com.au

Tel: (02) 8536-7200 • FAX: (02) 9525-7296

Belgium • info@mooreind.be

Tel: 03/448.10.18 • FAX: 03/440.17.97

Tel: 86-21-62491499 • FAX: 86-21-62490635

The Netherlands • sales@mooreind.nl

Tel: (0)344-617971 • FAX: (0)344-615920

China • sales@mooreind.sh.cn

United Kingdom • sales@mooreind.com

Tel: 01293 514488 • FAX: 01293 536852

Page 31

January 2001

User’s Manual Supplement

Physical Instructions for Installing an

Encapsulated Hockey-Puck (HPP) Instrument

and LH2 Field-Mount Enclosure Apparatus

The Physical Instructions Supplement provides references and additional information for safely installing and commissioning a Moore Industries’ Hockey-Puck instrument and LH2 Field-Mount Enclosure Apparatus.

Instrument Labeling and Identification—The fully assembled apparatus consists of a Moore Industries’ Hockey-Puck unit securely mounted in an LH2 enclosure. Such an apparatus is intended for use in both indoor and outdoor Hazardous (Classified) Locations where a degree of protection from windblown dust and rain, splashing and hose-directed water, and protection from the formation of ice on the enclosure is required. A series of selected Moore Industries’ 2-Wire hockey-puck style units mounted in the LH2 enclosure (consult factory for a list of the certified instruments) are certified as an Explosion-Proof and Dust Ignition-Proof appartus in accordance with Factory Mutual Research ‘3600’ standard (NEC-based) and as Flame-Proof in accordance with the CENELEC/ATEX Directive 94/9/EC (IEC-based). For applications intended in North America and other related areas, the approval classifications are stated on the externally mounted metal ID Tag to be FM approved as Explosion-Proof for Class I, Division 1, Groups A, B, C and D; Dust Ignition-Proof for Class II/III, Division 1, Groups E, F and G; T6 @ 60°C Maximum Operating Ambient Temperature. In regards to protection from Environmental hazards/effects, the apparatus carries a NEMA Type 4X rating with an Ingress Protection Code of IP66 as per IEC-529. For applications intended in Europe and other related areas, the ID Tag clearly states that the apparatus is certified by ISSeP to be Flame-Proof and marked as such:

II 2GD EEx d IIC; T6 @ Tamb. (-20°C ≤ Tamb. ≤ +60°C). The temperature marking for dust atmospheres is up to + 80°C. The maximum power parameters are: Vmax = 42 VDC, Imax = 110 mA and Pmax = 2W. Also, the tag clearly shows the CE marking denoting full compliance with the relevant European Community directives applicable to the Process Instrumentation Industry. For 2-wire transmitters certified and intended to be operated as either Intrinsically Safe, Non-Incendive (Class I, Div. 2) or Type N; the power parameters are clearly stated on both the Instrument ID Label and the Apparatus ID Tag. Also, the power parameters and cabling requirements are stated in the ‘Intrinsically Safe Barrier and Field Installation Diagram’ that is included in the relevant User’s Manuals. This apparatus is designed in such a way that it: a) does not give rise to physical injury or other harm due to contact, b) does not produce excessive surface temperature, infra-red, electromagnetic, ionizing radiation and, c) have no non-electrical dangers.

700-764-00A

The Interface Solution Experts

CAUTION

Read, understand and adhere to the manufacturer’s installation and operating procedures. Substitution of components may impair the instrument’s Intrinsic Safety and/or Non-Incendivity. Keep cover tightly closed. Do not open unit when energized. Do not open unit when either an explosive gas or dust atmosphere is present. Cable entry temperature may exceed 70°C. Cabling to be suitable. Do not allow layers of dust to accumulate on the surfaces of the equipment. Disconnect power before servicing.

Contact Information—If you have installation, maintenance, periodic service, warranty questions or emergency repair requirements, please contact the nearest Moore Industries sales and service office. Contact information can be found on the back of this Supplement, in the User’s Manual for the instrument, or at Moore Industries’ web site: www.miinet.com

User’s Manual—Complete information for an individual instrument model can be found in the Moore Industries User’s Manual for that instrument. The manual provides information for putting the instrument safely into service. This, where applicable, includes instructions, drawings and diagrams. The Manual also includes appropriate Warnings, Cautionary Statements, and Notes.

User’s Manual components, where applicable, include: Introduction—Brief description of the instrument and its

general application and use. Specifications—Provides electrical and environmental conditions under which the instrument is designed to safely perform. Ordering Information—Provides a description of the product model number to assist in verifying that the instrument received matches the instrument ordered for the installation. Calibration and Configuration—Describes how to accomplish instrument settings and adjustment required to set up the unit Installation and Connection—Describes how to install the instrument and make electrical connections (including terminal designations). See the back of this Supplement for additional information on how to install the hockey-puck instrument into the LH2 enclosure. Maintenance—Describes recommended maintenance (if any required) for the instrument. The user should consult their own maintenance procedures for any site-specific maintenance procedures (such as scheduled recalibrations) or other maintenance schedules that may apply to instruments such as those supplied by Moore Industries. Troubleshooting—Describes, where applicable, procedures for correcting any operational difficulties that may be encountered as a result of improper configuration/calibration or installation of the instrument. Customer Support—Describes the procedure and information required to efficiently receive answers to questions regarding instrument installation, set up, or operation.

• www.miinet.com

Page 32

User’s Manual Supplement

92mm

(3.61 in)

9mm

(0.35 in)

87mm

(3.44 in)

Conduit

Entry Port

89mm

(3.5 in)

84mm

(3.30 in)

61mm

(2.4 in)

2-in Pipe Bracket

Mounting Holes (4)

61mm

(2.4 in)

Process Connection

1/2-in NPT (N and M models) or

G½ (BSP) (C models)

61mm

(2.4 in)

10-32

Mounting

Holes (2)

51mm

(2.0 in)

Safety Lock

(LH2 only)

Metal Tag

BOTTOM

INSIDE

2-INCH PIPE MOUNTING HARDWARE

30mm

(1.2 in)

DIA. 72mm

(DIA. 2.85 in)

Instrument Mounting Holes 40mm (1.56 in)

Instrument Mounting Holes 33mm (3.07 in)

I.D. 62mm x 19mm Deep

(2.43 in x 0.76 in Deep)

Ground

M4.0 x 0.7

(4 places)

FRONT

SIDE

Physical Instructions for Installing an Encapsulated Hockey-Puck (HPP) Instrument and LH2 Field-Mount Enclosure Apparatus

Suitability for the Installation—To determine if a unit’s area classification approvals are appropriate for a particular installation, first inspect the classification labeling on the instrument and/or instrument enclosure and the “Control Drawing for Installation” found in the User’s Manual (where applicable). Second, consult the installation criteria for the approval or electrical standard agencies governing your location to determine if the unit’s approvals are suitable for the installation. If the instrument’s labeling matches the agency criteria and/or electrical codes for the area, the unit is suitable for the installation. To determine if the unit’s electrical and environmental specifications are appropriate for the installation, consult the “Specifications” table in the User’s Manual for that instrument. If the instrument’s electrical and environmental characteristics are within the expected ambient operating conditions for the installation, the instrument is suitable for the installation.

CAUTION

If for any reason you are uncertain as to whether the instrument’s specifications or area classifications meet the operational or safety requirements for the installation, consult Moore Industries prior to installation.

Installation of LH Enclosure Apparatus

1. Install the LH2 enclosure onto a surface, temperature thermowell, or onto a standard 2-inch pipe using the mounting hardware. Remove the cap from the LH2 by rotating the cap counter clockwise after unlocking by rotating the locking screw clockwise.

2. Connect input and output wiring in accordance with the connection information found in the User’s Manual for that instrument.

3.Replace the cap to the LH2 by rotating the cap clockwise. Secure (lock) the cap by rotating the locking screw counterclockwise.

4. Connect a ground wire between the ground screw on the LH2 enclosure to an appropriate earth ground.

• The maximum allowable length of any unshielded portion of the input and/or output connections is 2 inches (50.8mm).

See the User’s Manual for the instrument for additional installation information.

Figure 1. Installation dimensions for LH2 enclosure.

Ground Wire Recommendations

The following ground wiring practices must be followed to ensure proper performance of the Moore Industries instrument in any application.

• Any Moore Industries product in a metal case or housing must be grounded.

• All input signals to, and output signals from, Moore Industries’ products should be connected using a shielded, twisted pair technique. Shields should be connected to an earth or safety ground at the unit itself.

United States • info@miinet.com

Tel: (818) 894-7111 • FAX: (818) 891-2816

Australia • sales@mooreind.com.au

Tel: (02) 8536-7200 • FAX: (02) 9525-7296

Belgium • info@mooreind.be

Tel: 03/448.10.18 • FAX: 03/440.17.97

The Netherlands • sales@mooreind.nl

Tel: (0)344-617971 • FAX: (0)344-615920

China • sales@mooreind.sh.cn

Tel: 86-21-62491499 • FAX: 86-21-62490635

United Kingdom • sales@mooreind.com

Tel: 01293 514488 • FAX: 01293 536852

Specifications and information subject to change without notice.

Moore Industries THZ, TDZ Installation Manual

Specifications and Main Features

Frequently Asked Questions

User Manual

Table of Contents

Introduction

The THZ & TDZ

Model and Serial Numbers

Specifications

Ordering Information

Table 2. THZ [DH] Ambient Effects Table Table 3. THZ [DIN], [HPP], and TDZ Ambient Effects Table

Figure 8. D-BOX Housing Dimensions (For use with the TDZ)

Configuring a THZ or TDZ

Installing the Configuration Software

Connecting the THZ or TDZ to the PC

Using the HART Communicator

Programming when a Device Description is Availab le

The HART Communicator Menu With a Device Description

The HART Communicator Menu Without a Device Description

Installation

Mounting the THZ or TDZ

Recommended Ground Wiring Practices

Figure 13. Connecting the THZ or TDZ in Multi-Drop Configuration

Operation

HART Protocol

Customer Support

Troubleshooting the PC Software

Appendix A: Intrinsic Safety

Low V oltage Directive