Baker hughes Panametrics xdp User manual

Gas analysis

XDP

User’s manual

910-204 Rev. E

XDP

Panametrics explosion-proof display

User’s manual

[Attention! This manual for use with standard software (E=1) only.]

910-204 Rev. E

December 2014

iii

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Contents

Chapter 1. General information ..........................................................1

1.1 Introduction ......................................................................................1

1.2 Basic features ....................................................................................1

1.3 System overview..................................................................................1

Chapter 2. Installation ..................................................................3

2.1 Introduction .....................................................................................3

2.2 Choosing an installation site .....................................................................4

2.3 Mounting the XDP system ........................................................................4

2.3.1 Mounting the XDP enclosure ..............................................................................4

2.3.2 Mounting the remote transmitter/sample system ........................................................4

2.4 Wiring the XDP ...................................................................................5

2.4.1 Wiring the analog input and 24 VDC output - J6..........................................................5

2.4.2 Wiring the system fault alarm - J2 ........................................................................5

2.4.3 Wiring the XDP alarms - J3................................................................................6

2.4.4 Wiring the calibration relays - J7..........................................................................6

2.4.5 Wiring the system analog output - J5 ....................................................................6

2.4.6 Wiring the XDP analog output - J8 ........................................................................6

2.4.7 Wiring the serial port - J4 .................................................................................6

2.4.8 Wiring the line power - TB1 ................................................................................7

Chapter 3. Operation .................................................................. 15

3.1 Introduction .................................................................................... 15

3.2 Preventing common problems .................................................................. 15

3.3 Cleaning the enclosure ......................................................................... 15

3.4 Powering up the system......................................................................... 16

3.4.1 The enclosure window ...................................................................................16

3.4.2 Initial screen displays ....................................................................................16

3.4.3 Starting the sample gas .................................................................................16

3.5 Accessing the user program .....................................................................17

3.6 Exiting the user program .........................................................................17

3.7 Error codes.......................................................................................17

Chapter 4. Setup ...................................................................... 19

4.1 Introduction .................................................................................... 19

4.2 Programming steps............................................................................. 19

4.3 Setting up the display...........................................................................20

4.3.1 Switching display windows ............................................................................. 20

4.3.2 Configuring the display .................................................................................20

4.3.3 Adjusting the display contrast ..........................................................................20

4.3.4 Setting the display backlight............................................................................20

4.4 Setting up the analog input ......................................................................21

4.4.1 Entering calibration data.................................................................................21

4.4.2 Setting the analog input error limits .....................................................................21

4.5 Setting up the alarms ...........................................................................22

4.5.1 Setting up the system fault alarm....................................................................... 22

4.5.2 Setting up the four XDP alarms.......................................................................... 22

4.6 Setting up the analog and digital outputs .......................................................23

4.6.1 Setting up the system analog output ................................................................... 23

4.6.2 Setting up the XDP analog output....................................................................... 23

4.6.3 Setting up the serial port digital output .................................................................25

4.7 Using the XDP utility functions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25

4.7.1 Lock menus ............................................................................................. 25

4.7.2 Lock all ..................................................................................................25

4.7.3 Versions.................................................................................................25

Chapter 5. Calibration .................................................................27

5.1 Introduction ....................................................................................27

5.2 Programming steps.............................................................................27

5.3 Configuring AutoCal ............................................................................28

5.3.1 Enabling AutoCal........................................................................................28

5.3.2 Selecting the AutoCal type..............................................................................28

5.3.3 Setting calibration gas flow times ......................................................................28

5.3.4 Scheduling AutoCal..................................................................................... 29

5.3.5 Indicating an AutoCal...................................................................................29

5.3.6 Initiating an AutoCal .................................................................................... 29

5.3.7 Setting the AutoCal drift limits ..........................................................................29

5.3.8 Setting AutoCal verification .............................................................................30

5.3.9 Viewing the drift data ...................................................................................30

5.4 Clearing the drift data ...........................................................................31

5.5 Resetting the verification alarm..................................................................31

5.5.1 Abort AutoCAL............................................................................................31

Chapter 6. Factory-level programming ................................................33

6.1 Introduction ....................................................................................33

6.2 Programming levels ............................................................................33

6.3 Programming steps.............................................................................33

6.4 Setup-level programming ......................................................................34

6.4.1 Configuring the display .................................................................................34

6.5 Factory-level programming ....................................................................34

6.5.1 The adv menu...........................................................................................34

6.5.2 The opt>setup menu ....................................................................................36

Chapter 7. Specifications ..............................................................37

7.1 Functional specifications .......................................................................37

7.2 Standard software for O2analysis ...............................................................38

7.3 Hydrogen-cooled generator software...........................................................38

7.4 Physical specifications..........................................................................38

7.5 Order information...............................................................................38

Appendix A. CE Mark compliance ......................................................39

A1. Introduction ....................................................................................39

A2. EMC compliance ................................................................................39

A3. LVD compliance.................................................................................39

Appendix B. PanaView™ programming ................................................40

B.1 Introduction ....................................................................................40

B.2 Initial setup .....................................................................................40

B.3 Viewing data. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .40

B.4 Logging data ...................................................................................42

Appendix C. Menu maps...............................................................43

C.1 List of menu maps ..............................................................................43

Appendix D. Factory default settings ...................................................47

D.1 Introduction ....................................................................................47

D.2 Default values ..................................................................................47

D.2.1 Display ................................................................................................. 47

D.2.2 Cal data................................................................................................. 47

D.2.3 4-20 mA input .......................................................................................... 47

D.2.4 Slot analog output ...................................................................................... 47

D.2.5 Alarms .................................................................................................. 47

D.2.6 AutoCAL ................................................................................................. 47

vii

viii

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Information Paragraphs

Note: These paragraphs provide information that provides a

deeper understanding of the situation, but is not essential to

the proper completion of the instructions.

IMPORTANT

These paragraphs provide information that emphasizes

instructions that are essential to proper setup of the

equipment. Failure to follow these instructions carefully

may cause unreliable performance.

CAUTION!

This symbol indicates a risk of potential minor

personal injury and/or severe damage to

the equipment, unless these instructions are

followed carefully.

WARNING!

This symbol indicates a risk of potential

serious personal injury, unless these

instructions are followed carefully.

HIGH VOLTAGE!

This symbol indicates the presence of

high voltage, which presents a potential

shock hazard for personnel operating

the equipment. Read and follow these

instructions carefully.

Safety Issues

WARNING!

It is the responsibility of the user to make sure

all local, county, state and national codes,

regulations, rules and laws related to safety

and safe operating conditions are met for

each installation.

WARNING!

For installations in potentially hazardous

areas, be sure to read the certification and

safety statements document at the end of

this manual before beginning the installation.

Auxiliary Equipment

Local safety standards

The user must make sure that he operates all auxiliary

equipment in accordance with local codes, standards,

regulations, or laws applicable to safety.

Working Area

WARNING!

Auxiliary equipment may have both manual

and automatic modes of operation. As

equipment can move suddenly and without

warning, do not enter the work cell of this

equipment during automatic operation,

and do not enter the work envelope of this

equipment during manual operation. If you

do, serious injury can result.

WARNING!

Make sure that power to the auxiliary

equipment is turned OFF and locked out

before you perform maintenance procedures

on the equipment.

Qualification of personnel

Make sure that all personnel have manufacturer-approved

training applicable to the auxiliary equipment.

Personal safety equipment

Make sure that operators and maintenance personnel have

all safety equipment applicable to the auxiliary equipment.

Examples include safety glasses, protective headgear,

safety shoes, etc.

Unauthorized operation

Make sure that unauthorized personnel cannot gain access

to the operation of the equipment.

Environmental compliance

Waste Electrical and Electronic Equipment (WEEE) Directive

Panametrics is an active participant in Europe’s Waste

Electrical and Electronic Equipment (WEEE) take-back

initiative, directive 2012/19/EU.

The equipment that you bought has required the extraction

and use of natural resources for its production. It may

contain hazardous substances that could impact health

and the environment.

In order to avoid the dissemination of those substances in

our environment and to diminish the pressure on the natural

resources, we encourage you to use the appropriate take-

back systems. Those systems will reuse or recycle most of

the materials of your end life equipment in a sound way.

The crossed-out wheeled bin symbol invites you to use

those systems.

If you need more information on the collection, reuse and

recycling systems, please contact your local or regional

waste administration.

Visit https://www.bakerhughesds.com/health-safety-and-

environment-hse for take-back instructions and more

information about this initiative.

Chapter 1. General information

1.1 Introduction

The XDP explosion-proof display is a general-purpose

display/control unit used for oxygen and thermal

conductivity measurement applications in zone 1

environments. A second part of the system is a

remotely-mounted sensor/transmitter, such as the

Panametrics oxy.IQ, XMO2 or XMTC.

NOTE: Refer to the documentation supplied with the specific

transmitter for complete information on the transmitter.

The XDP performs the following basic functions:

• Supplies 24 VDC to power the transmitter

• Accepts and processes a 4-20 mA output from

the transmitter

• Shows a selected process parameter on a

digital display

• Provides a user interface for programming

the system

• Provides user-configurable alarm relays and an

analog output

The XDP is wall-mounted via its integral mounting plate and

it is connected to the transmitter with an electrical conduit.

It is certified for use in zone 1 hazardous areas.

1.2 Basic features

The XDP incorporates the following basic features:

• Wall-mountable, explosion-proof enclosure

• Universal 100-240 VAC power input

• 24 VDC power output

• 4-20 mA analog input

• 4-20 mA/0-20 mA/0-2 V analog output

• RS-232/RS-485 serial port

• High-resolution, backlit LCD digital display

• Six-key, magnetic (“through-the-glass”) keypad

• Five general-purpose alarm relays

• Automatic calibration

See "Figure 1" on page 1 for a picture of the XDP.

1.3 System overview

Figure 1: The XDP

In a binary gas mixture, the transmitter measures the

concentration of a target gas in a known background

gas (see the transmitter documentation for a discussion

of the specific technology employed by the sensor

mechanism). To be suitable for use in an XDP system,

the transmitter must:

• Be self-powered or powered by the +24 VDC output

from the XDP

• Output a 4-20 mA signal to the XDP analog input

• Comply with all performance specifications for

the system

• Mains supply voltage should not exceed 10% of nominal

supply voltage

• Installation category II

• Pollution degree 2

• Maximum altitude: 2000 m

• Humidity: up to 80% humidity for temperatures up

to 31 °C (88 °F) decreasing linearly to 50% humidity

at 40 °C (104 °F)

• Temperature range: -10 °C to +65 °C (+14 °F to +149 °F).

The XDP accepts a 4-20 mA analog output from the

transmitter and processes the information. Then, the

results are displayed on the built-in digital display window.

In addition, the data may be output as a linear analog

signal to drive a data recorder or similar device.

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Chapter 2. Installation

2.1 Introduction

This chapter provides a general description of the XDP

explosion-proof display and gives directions on how to

install and wire the unit for proper operation.

WARNING!

The XDP requires an external power

disconnect device such as a switch or

circuit breaker. The disconnect device must

be marked as such, clearly visible, directly

accessible, and located within 1.8 m (6 ft)

of the unit.

Be sure to observe all installation limits and precautions

described in this chapter. Pay particular attention to the

ambient temperature range of –10° to +60°C (14° to +140°F)

specified for the instrument.

WARNING!

To ensure safe operation of the XDP, the

unit must be installed and operated as

described in this manual. Also, be sure to

follow all applicable local safety codes

and regulations for installing electrical

equipment. In addition, all procedures should

be performed by trained service personnel.

Proceed to the next page to begin the installation.

2.2 Choosing an installation site

All environmental and installation factors should have

been discussed with a Panametrics applications engineer

or field sales person at the time the XDP was ordered. Thus,

the equipment should be suited to the application and the

planned installation site. However, before installing the unit,

read these guidelines to verify that the best installation

site has been chosen for optimum instrument accuracy

and reliability.

• Make sure that the XDP and transmitter enclosures

are suitable for the environmental conditions at the

installation site.

• Install the system in a location with little or no vibration.

• Mount the transmitter in accordance with the instructions

provided in its accompanying documentation.

• Make sure the ambient temperature at the XDP installation

site is –10° to 60°C (14° to 140°F).

• Use a suitable electrical conduit to interconnect the

remote transmitter and the XDP enclosure.

• Use a suitable sample system between the gas source

and the sample inlet of the transmitter.

• Observe all normal safety precautions. Specifically, do not

exceed the maximum pressure and temperature ratings

of the transmitter or the sample system.

• Install the XDP system in a location that provides ready

access for programming, testing, and servicing the unit.

• Protect all cables from excessive physical strain (bending,

pulling, twisting, etc.). Do not subject the cables to

temperatures above 65°C (149°F) or below –50°C (–58°F).

• Be sure that the line voltage at the planned installation

site is within the specified power input rating for the XDP

(100-240 VAC; 50/60 Hz; 40 W maximum).

2.3 Mounting the XDP system

This section explains how to mount the XDP system

components and the transmitter/sample system at the

installation site.

WARNING!

The XDP requires an external power

disconnect device such as a switch or

circuit breaker. The disconnect device must

be marked as such, clearly visible, directly

accessible, and located within 1.8 m (6 ft)

of the unit.

HIGH VOLTAGE!

This symbol indicates the presence of

high voltage, which presents a potential

shock hazard for personnel operating

the equipment. Read and follow these

instructions carefully.

2.3.1 Mounting the XDP enclosure

Refer to "Figure 2" on page 8 , through "Figure 7" on

page 13, and complete the following steps to mount

the XDP enclosure:

1. Select a flat surface on a vertical wall or instrument

panel with sufficient space to hold the XDP enclosure.

2. Locate and prepare four (4) mounting holes or two (2)

horizontal mounting rails on the vertical surface.

3. Secure the XDP enclosure to the mounting surface

with four (4) sets of mounting hardware. Be sure that

the enclosure is in a vertical position, with the display

window upright.

2.3.2 Mounting the remote

transmitter/sample system

Mount the remote transmitter in accordance with the

instructions in its accompanying documentation.

NOTE: Most Panametrics transmitters may be located

up to 2800 ft (850 m) from the XDP enclosure.

To provide reliable and accurate results, the transmitter

is often installed in a suitable sample system. The sample

system must deliver a clean, representative gas sample

to the inlet of the transmitter at the proper temperature,

pressure and flow rate.

NOTE: A suitable sample system may be ordered directly

from Panametrics. The sample system would be supplied

fully assembled on a flat plate with four (4) mounting holes.

See the sample system and/or transmitter manual for

more details.

2.4 Wiring the XDP

To completely wire the XDP, connect the following items:

• Analog input (terminal J6)

• +24 VDC output (terminal J6)

• System fault alarm (terminal J2)

• XDP alarms (terminal J3)

• Additional relays (terminal J7)

• System analog output (terminal J5)

• XDP analog output (terminal J8)

• Serial port (terminal J4)

• Line power (terminal TB1)

Refer to the wiring diagram shown in "Figure 8" on page

14, while completing the instructions in this section.

Attention European customers!

To meet CE Mark requirements, install all

cables as described in Appendix A, CE Mark

Compliance.

WARNING!

The XDP requires an external power

disconnect device such as a switch or

circuit breaker. The disconnect device must

be marked as such, clearly visible, directly

accessible, and located within 1.8 m (6 ft) of

the unit.

WARNING!

To ensure safe operation of the XDP, the

unit must be installed and operated as

described in this manual. Also, be sure to

follow all applicable local safety codes

and regulations for installing electrical

equipment. In addition, all procedures should

be performed by trained service personnel.

Remove the two side covers on the XDP enclosure. This is

accomplished by loosening the set screw in the cover and

using a long screwdriver or rod in the slots provided to

unscrew the cover. Proceed to the appropriate section to

wire each of the terminal blocks.

NOTE: A long, pin-like, plastic wiring tool is stored inside both

ports of the XDP enclosure. Insert the tool into a connector

pin to open the hole, and then insert the wire. When the tool

is removed, the wire is clamped into the connector.

2.4.1 Wiring the analog input and 24 VDC

output - J6

Terminal block J6 contains the analog input and power

connections for the remote transmitter. To wire the

transmitter, complete the following steps:

NOTE: Refer to the transmitter manual for details on wiring

the transmitter’s terminal block(s).

1. Connect pin #1 to the positive terminal of the

analog output from the transmitter.

2. Connect pin #2 to the +24 VDC loop power input

on the transmitter.

3. Connect pin #3 to the return connection of the

analog output from the transmitter.

2.4.2 Wiring the system fault alarm - J2

Terminal block J2 contains the system fault alarm

connections. To wire this alarm, complete the following

steps:

NOTE: The system fault alarm on terminal block J2 is

usually factory-configured as a “fail-safe” alarm. That is,

it is energized during normal operation and de-energized

when tripped.

1. Connect pin #1 (NC) to the alarm device input.

2. Connect pin #2 (C) to the alarm device return.

3. Pin #3 (NO) is not used for fail-safe operation.

NOTE: For non-fail-safe operation, reprogram the alarm

or move the pin #1 connection to pin #3.

2.4.3 Wiring the XDP alarms - J3

Terminal block J3 contains connections for the four XDP

alarms. To wire these alarms, complete the following steps:

NOTE: The following instructions show the wiring for fail-safe

operation. For non-fail-safe operation reprogram the alarm

or move the pin #1 connection to pin #3 for that alarm.

1. Connect the XDP high alarm (alarm 1) as follows:

a. Connect pin #1 (NC) to the alarm device input.

b. Connect pin #2 (C) to the alarm device return.

2. Pin #3 (NO) is not used for fail-safe operation

3. Connect the XDP high high alarm (alarm 2) as follows:

a. Connect pin #4 (NC) to the alarm device input.

b. Connect pin #5 (C) to the alarm device return.

c. Pin #6 (NO) is not used for fail-safe operation

4. Connect the XDP low alarm (alarm 3) as follows:

a. Connect pin #7 (NC) to the alarm device input.

b. Connect pin #8 (C) to the alarm device return.

c. Pin #9 (NO) is not used for fail-safe operation.

5. Connect the XDP low low alarm (alarm 4) as follows:

a. Connect pin #10 (NC) to the alarm device input.

b. Connect pin #11 (C) to the alarm device return.

c. Pin #12 (NO) is not used for fail-safe operation.

2.4.4 Wiring the calibration relays - J7

Terminal block J7 contains connections for the four

calibration relays. To wire these relays, complete the

following steps:

NOTE: These relays are configured for non-fail-safe

operation.

1. Connect the process/cal relay (relay 1) as follows:

a. Pin #1 (NC) is not used for non-fail-safe operation.

b. Connect pin #2 (C) to the alarm device return.

c. Connect pin #3 (NO) to the alarm device input.

2. Connect the zero/span cal relay (relay 2) as follows:

a. Pin #4 (NC) is not used for non-fail-safe operation.

b. Connect pin #5 (C) to the alarm device return.

c. Connect pin #6 (NO) to the alarm device input.

3. Connect the AutoCal indication alarm (relay 3) as follows:

a. Pin #7 (NC) is not used for non-fail-safe operation.

b. Connect pin #8 (C) to the alarm device return.

c. Connect pin #9 (NO) to the alarm device input.

4. Connect the Auto verification alarm (relay 4) as follows:

a. Pin #10 (NC) is not used for non-fail-safe operation.

b. Connect pin #11 (C) to the alarm device return.

c. Connect pin #12 (NO) to the alarm device input.

2.4.5 Wiring the system analog output - J5

Terminal block J5 contains connections for the system

analog output. To wire the system analog output, complete

the following steps:

1. Connect pin #1 to positive input on the device.

2. Connect pin #2 to the return line from the device.

3. Pin #3 has no connection.

2.4.6 Wiring the XDP analog output - J8

Terminal block J8 contains connections for the XDP analog

output. To wire the XDP analog output, complete the

following steps:

1. Connect pin #1 to positive input on the device.

2. Connect pin #2 to the return line from device.

3. Pin #3 has no connection.

2.4.7 Wiring the serial port - J4

Terminal block J4 contains connections for the RS-232/RS-

485 (RS-485 supports multi-drop installations) serial port. To

wire the serial port, complete the following steps:

1. Connect pin #1 to the transmit pin on the PC serial port.

2. Connect pin #2 to the receive pin on the PC serial port.

3. Connect pin #3 to the return pin on the PC serial port.

NOTE: This connection may be made with a Panametrics

#704-668 cable. If this cable is used, connect the red wire to

pin #1, the white wire to pin #2, and the green wire to pin #3.

See EIA-RS serial communications (Panametrics document

916-054) for a detailed discussion of serial port wiring.

2.4.8 Wiring the line power - TB1

Terminal block TB1 on the power supply board contains

connections for the line power to the XDP. Make these

connections only with wire that meets the following

specifications:

• Individual conductor gauge of 18 AWG minimum

(maximum current capacity of 12 Amps)

• Voltage rating of 600 volts minimum

• Insulation temperature rating of 105°C minimum

WARNING!

The rating of the wire insulation must be

at least 15°C above the expected ambient

temperature.

Refer to "Figure 8" on page 14 and complete the following

steps:

WARNING!

Before proceeding with the section, verify

that the line power has been turned off at the

external disconnect device.

1. Attach a cable or conduit with the three line power

conductors to a cable entry port on the XDP enclosure.

CAUTION!

Be sure that the input voltage complies

with the input power rating for the XDP

(see "Chapter 7. Specifications" on

page 37).

2. Connect the line power leads to terminal block J1

as follows:

a. Connect the line power lead (black or brown)

to pin L on the power connector.

b. Connect the neutral power lead (white or blue)

to pin N on the power connector.

c. Connect the ground power lead (green or

green/yellow) to the chassis ground screw shown

in "Figure 8" on page 14.

3. Make sure that the factory-installed jumper wire

at pin G on the power connector is secure.

This completes the wiring of the XDP. Proceed to

"Chapter 3. Operation" on page 15, for instructions on

using the flow meter.

SURFACE

FINISH

125

UNLESS OTHERWISE SPECIFIED

DIMENSIONS ARE IN INCHES.

TOLERANCES ARE

ANGLES

1°

DECIMALS

.XX

0.01

.XXX

0.005

FRACTIONS

1/32"

5.510

139.95

A A

3.540

89.92

B B

M5 X .8 X 0.25 THRU

4.350

110.49

4.884

124.05

.300

7.62

.694

17.62

1.230

31.24

SECTION A-A

3.700

93.98

4.884

124.05

4.331

110

.200

5.08

.394

.694

17.62

1.230

31.24

SECTION B-B

112-1.965-3 ISO 6H

RETAINING RING

WINDOW

DETAIL C

SCALE 1.5 : 1

.44(10 MIN

EPOXY

SEE NOTE 11

(B) WITHOUT WINDOW(A) WITH WINDOW

NOTES:

1. MATERIAL: ALUMINUM ENCLOSURE (Si=9%, Mg=0.35%. Mn=0.5%, REMAINDER= AL)

STAINLESS STEEL ENCLOSURE (C=0.011%, Si=0.45%, Mn=1.70%, Cr=16.5%, Mo=2.05%, Cu=0.53%

Ni=10.2%, P=0.28%, S=0.026%, N=0.064%, REMAINDER = Fe)

2. FINISH: TEXTURED POWDER COAT - RAL 7038 WITH A MAXIMUM THICKNESS OF 0.2mm.

3. NO ADDITIONAL THROUGH HOLES OR MACHINING ALLOWED.

4. 3MM EXCESS CASE MATERIAL REQUIRED UNDER AND AROUND DRILLED HOLES.

5. REMOVE ALL BURRS AND BREAK SHARP EDGES.

6. MAXIMUM POWER DISSIPATION WITHIN ENCLOSURE NOT TO EXCEED 40W.

7. LABEL MOUNTING INCLUDES ADHESIVE SECUREMENT TO MOUNTING PLATE.

FOUR DRIVE PINS THROUGH LABEL AND MOUNTING PLATE SECURE MARKING

TO INSTRUMENT HOUSING

8. THE XDP IS AN ACCESSORY USED TO OPERATE OTHER PANAMETRICS PRODUCTS.

THE XDP DOES NOT DISSIPATE

40 WATTS

9. NBR (NITRLE-BUTADIENE RUBBER)

O-RING FOR WEATHERPROOF SEAL 3.53mm THK X 120mm DIA.

10. MATERIAL FOR WINDOW IN (A) - TEMPERED GLASS (BOROSILICATE)

11. THE WINDOW AND RETAINING RING ARE PERMANENTLY LOCKED WITH

LOXEAL 59-20.

M124X2 965/3 ISO

METRIC THREAD

8 FULLY ENGAGED

THREADS MINIMUM

CHANGES TO THIS DRAWING REQUIRE

PRIOR AGENCY AUTHORIZATION.

CONTACT THE CERTIFICATION ENGINEER.

10/9/2020

500000379730

GENERATED USING

SOLIDWORKS

SHEET 1 OF 6

DRAWING NOT TO SCALE

DRAWING NUMBER

THIRD ANGLE

PROJECTION

SIZE

TITLE

REV

VERSION

EXPLOSIONPROOF DISPLAY PACKAGE

752-175

BAKER HUGHES CO.

UPDATED

ECM

CONFIDENTIAL AND PROPRIETARY INFORMATION.

THIS DRAWING CONTAINS CONFIDENTIAL AND

PROPRIETARY INFORMATION OF BAKER HUGHES CO.

AND MAY NOT BE VIEWED OR DISCLOSED TO

OTHERS EXCEPT WITH THE WRITTEN PERMISSION

OF BAKER HUGHES COMPANY

CERTIFICATION DRAWING, CENELEC

SWD/752-175/000/01

Figure 2: XDP Certification drawing, Cenelec (752-175revA, sheet 1 of 6)

Figure 3: XDP certification drawing, Cenelec (752-175revA, sheet 2 of 6)

EARTH GROUNDING HARDWARE DETAIL

SCREW FH M5x6.0 SS

EARTH SYMBOL NAME PLATE ALUMINUM

WASHER LOCK SPLIT M5 SS

WASHER FLAT M5 SS

DETAIL D

12 11 10 9 8 7 6 5 4 3 2 1

NO C NC NO C NC NO C NC NO C NC

2 1

3 2 1

NO C NC

3 2 1

RTN RX TX

LEFT SIDE CONNECTIONS

VIEW G

12 11 10 9 8 7 6 5 4 3 2 1

NO C NC NO C NC NO C NC NO C NC

3 2 1

RTN +24 IN

2 1

VIEW H

RIGHT SIDE CONNECTIONS

SEE DETAIL D

SEE VIEW H

SEE DETAIL E

SEE DETAIL F

SEE VIEW G

REFER TO LABEL FILE 442-1603 ON SHEET 6

REFER TO LABEL FILE 442-1604 ON SHEET 6

DETAIL E

SCALE 2 : 1

DETAIL F

SCALE 2 : 1

GROUND STUD

PART #213-256-03

PIN SPACING 5/5.08

AWG 28-12; 300V; 15A

CHANGES TO THIS DRAWING REQUIRE

PRIOR AGENCY AUTHORIZATION.

CONTACT THE CERTIFICATION ENGINEER.

752-175

VERSION

REV

SIZE

DRAWING NUMBER

DRAWING NOT TO SCALE

SHEET 2 OF 6

GENERATED USING

SOLIDWORKS

CONFIDENTIAL AND PROPRIETARY INFORMATION.

THIS DRAWING CONTAINS CONFIDENTIAL AND PROPRIETARY

INFORMATION OF BAKER HUGHES CO. AND MAY NOT BE

VIEWED OR DISCLOSED TO OTHERS EXCEPT WITH THE

WRITTEN PERMISSION OF BAKER HUGHES COMPANY

BAKER HUGHES CO.

SWD/752-175/000/01

Figure 4: XDP certification drawing, Cenelec (752-175revA, sheet 3 of 6)

9.065

230.25

COVER LOCKING

SOCKET HEAD

SET SCREW

8.280

210.31

6.454

163.94

7.100

180.34

4.875

123.83

5.850

148.59

6.125

155.58

SECTION I-I

REFERENCE LABEL 442-1603-01

CHANGES TO THIS DRAWING REQUIRE

PRIOR AGENCY AUTHORIZATION.

CONTACT THE CERTIFICATION ENGINEER.

752-175

VERSION

REV

SIZE

DRAWING NUMBER

DRAWING NOT TO SCALE

SHEET 3 OF 6

GENERATED USING

SOLIDWORKS

CONFIDENTIAL AND PROPRIETARY INFORMATION.

THIS DRAWING CONTAINS CONFIDENTIAL AND PROPRIETARY

INFORMATION OF BAKER HUGHES CO. AND MAY NOT BE

VIEWED OR DISCLOSED TO OTHERS EXCEPT WITH THE

WRITTEN PERMISSION OF BAKER HUGHES COMPANY

BAKER HUGHES CO.

SWD/752-175/000/01

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