Emerson Fisher 3582 Instruction Manual D200138X012_Feb15_AQ

2015-03-30

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Instruction Manual

3582, 582i, and 3583

D200138X012

February 2015

Fisherr 3582 and 3582i Positioners, 582i
Electro‐Pneumatic Converter, and 3583 Valve
Stem Position Transmitter
Contents
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Scope of Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Type Number Descriptions . . . . . . . . . . . . . . . . 6
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Educational Services . . . . . . . . . . . . . . . . . . . . . . . . . 7
Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Hazardous Area Classifications and Special
Instructions for “Safe Use” and Installation
in Hazardous Areas for 582i Converter . . . . . . . . 8
CSA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
FM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
ATEX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
IECEx . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13

Changing Cam Position . . . . . . . . . . . . . . . . . . . . . .
Pressure Connections . . . . . . . . . . . . . . . . . . . . . . .
Supply Connection . . . . . . . . . . . . . . . . . . . . . .
Output Connection . . . . . . . . . . . . . . . . . . . . . .
Instrument Connection . . . . . . . . . . . . . . . . . .
Diagnostic Connections . . . . . . . . . . . . . . . . . .
Vent . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Electrical Connections for 3582i
Valve Positioner . . . . . . . . . . . . . . . . . . . . . . . . . .
582i Converter Installation . . . . . . . . . . . . . . . . . . .
Operating Information . . . . . . . . . . . . . . . . . . . . . . . .
Valve Positioner Cam Information . . . . . . . . . . . . .
Valve Stem Position Transmitter Cam
Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

CONTROL VALVE WITH
3582 POSITIONER

www.Fisher.com

W8424

CONTROL VALVE WITH
3582i POSITIONER

21
23
24
24
26

(continued on page 2)

Figure 1. Typical Mounting for Fisher 3582 and 3582i Positioners and 3583 Transmitters

W5498‐1

18
18
18
20
20
20
21

W5499‐1

CONTROL VALVE WITH
3583 TRANSMITTER

Instruction Manual

3582, 582i, and 3583

D200138X012

February 2015

Contents (cont'd)
Valve Positioner Bypass Operation . . . . . . . . . . . . .
Input Signal Ranges . . . . . . . . . . . . . . . . . . . . . . . . .
Valve Positioner Split‐Range Operation . . . . . . . . .
Changing Valve Positioner Action . . . . . . . . . . . . .
Changing Valve Stem Position Transmitter
Action . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Calibration Of Valve Positioner Or
Valve Stem Position Transmitter . . . . . . . . . . . . . . . .
Beam Alignment . . . . . . . . . . . . . . . . . . . . . . . . . . .
Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Principle of Operation . . . . . . . . . . . . . . . . . . . . . . . .
3582 Valve Positioners . . . . . . . . . . . . . . . . . . . . . .
3582i Valve Positioner . . . . . . . . . . . . . . . . . . . . . . .
3583 Valve Stem Position Transmitters . . . . . . . . .

26
27
27
28
28
29
29
31
32
32
33
34

Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Changing the Range Spring . . . . . . . . . . . . . . . . . .
Replacing Gaskets . . . . . . . . . . . . . . . . . . . . . . . . . .
Replacing the Nozzle O‐Ring . . . . . . . . . . . . . . . . . .
Replacing the Relay . . . . . . . . . . . . . . . . . . . . . . . . .
Adjusting the Flapper Pivot . . . . . . . . . . . . . . . . . . .
Replacing the 582i Converter
Primary O‐Ring and Filter . . . . . . . . . . . . . . . . . .
Replacing the 582i Converter Housing
Cap O‐Ring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Removing the 582i Converter . . . . . . . . . . . . . . . . .
Reassembling the 582i Converter . . . . . . . . . . . . .
Parts Ordering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Parts Kits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Parts List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Loop Schematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

35
36
36
37
37
38
38
38
38
39
40
40
41
54

Introduction
Scope of Manual
This instruction manual includes installation, operation, calibration, maintenance, and parts ordering information for
Fisher 3582 pneumatic valve positioners, the 3582i electro‐pneumatic valve positioner, and 3583 pneumatic valve
stem position transmitters. Refer to separate instruction manuals for information on the control valve, actuator, and
accessories.
Do not install, operate or maintain a 3582 pneumatic valve positioner, a 3582i electro‐pneumatic valve positioner, or a
3583 pneumatic valve stem position transmitter without being fully trained and qualified in valve, actuator and
accessory installation, operation and maintenance. To avoid personal injury or property damage it is important to
carefully read, understand, and follow all of the contents of this manual, including all safety cautions and warnings. If
you have any questions about these instructions, contact your Emerson Process Management sales office before
proceeding.

Description
3582 pneumatic valve positioners and the 3582i electro‐pneumatic valve positioner shown in figure 1 are used with
diaphragm‐actuated, sliding‐stem control valve assemblies. The pneumatic valve positioners receive a pneumatic
input signal from a control device and modulate the supply pressure to the control valve actuator. The positioner
adjusts the actuator supply pressure to maintain a valve stem position proportional to the pneumatic input signal.
3582NS positioners are designed for nuclear power applications. The 3582NS construction includes materials that
provide superior performance at elevated temperature and radiation levels. The O‐rings are EPDM (ethylene
propylene) and the diaphragms are EPDM/meta‐aramid fabric. EPDM demonstrates superior temperature capability
and shelf life over nitrile. The meta‐aramid diaphragm fabric demonstrates improved strength retention at elevated
temperature and radiation conditions.

CAUTION
Use a clean, dry, oil‐free air supply with instruments containing EPDM components. EPDM is subject to degradation when
exposed to petroleum‐based lubricants.

2

Instruction Manual

3582, 582i, and 3583

D200138X012

February 2015

Table 1. Specifications for Fisher 3582 and 3582i Valve Positioners
Note: Specifications for 3582 positioners include
3582A, 3582C, 3582D, 3582G, and 3582NS unless
otherwise indicated

3582i
1.4 bar (20 psig) Supply: 0.46 normal m3/hr
(17.2 scfh)
2.0 bar (30 psig) Supply: 0.57 normal m3/hr
(21.4 scfh)
2.4 bar (35 psig) Supply: 0.64 normal m3/hr
(23.8 scfh)

Input Signal
3582:
J 0.2 to 1.0 bar (3 to 15 psig), J 0.4 to 2.0 bar
(6 to 30 psig), or J split range, see table 10
3582i:
4 to 20 mA DC constant current with 30 VDC
maximum compliance voltage, can be split range, see
table 10

Maximum Supply Air Demand
1.4 bar (20 psig) Supply: 4.4 normal m3/hr
(164.5 scfh)
2.0 bar (30 psig) Supply: 6.7 normal m3/hr
(248.5 scfh)
2.4 bar (35 psig) Supply: 7.7 normal m3/hr
(285.5 scfh)

Equivalent Circuit for 3582i
The 582i converter equivalent circuit is 120 ohms,
shunted by three 5.6‐volt zener diodes
(see figure 10)

Performance
3582
Independent Linearity: ±1 percent of output signal
span
Hysteresis: 0.5 percent of span
3582i
Independent Linearity: ±2 percent of output signal
span
Hysteresis: 0.6 percent of span
Electromagnetic Compatibility for 582i
electro‐pneumatic converter
Meets EN 61326‐1 (First Edition)
Immunity—Industrial locations per Table 2 of
the EN 61326‐1 standard. Performance is
shown in table 3 below.
Emissions—Class A
ISM equipment rating: Group 1, Class A
Note: The electromagnetic compatibility
specifications also apply to the 3582i
3582 and 3582i
Typical Open Loop Gain (Output Signal):
J 100 in the range of 0.2 to 1.0 bar (3 to 15 psig)
J 55 in the range of 0.4 to 2.0 bar (6 to 30 psig)

Output Signal
Type: Pneumatic pressure as required by actuator up
to 95 percent of maximum supply
Action: Field‐reversible between J direct and
J reverse within the pneumatic valve positioner
Supply Pressure(1)
Recommended: 0.3 bar (5 psi) above actuator
requirement
Maximum: 3.4 bar (50 psig) or pressure rating of
actuator, whichever is lower
Supply Medium: air or natural gas(2)
Note: The 3582i is not approved for use with natural
gas as the supply medium
Input Bellows Pressure Rating(1)
See table 9 for minimum and maximum pressure
ratings (allowable input signal) for each available
range spring
Maximum Steady‐State Air Consumption(3)

Operating Influences
Supply Pressure—3582: Valve travel changes less than
1.67 percent per bar (0.25 percent per 2 psi) change
in supply pressure
Supply Pressure—3582i: Valve travel changes less
than 3.62 percent per bar (1.5 percent per 2 psi)
change in supply pressure

3582
1.4 bar (20 psig) Supply: 0.38 normal m3/hr
(14.0 scfh)
2.0 bar (30 psig) Supply: 0.48 normal m3/hr
(18.0 scfh)
2.4 bar (35 psig) Supply: 0.54 normal m3/hr
(20.0 scfh)
‐ continued ‐

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Instruction Manual

3582, 582i, and 3583

D200138X012

February 2015

Table 1. Specifications for Fisher 3582 and 3582i Valve Positioners (Continued)
Operative Temperature Limits(1)
Standard Construction
3582 and 3582i: -40 to +71_C (-40 to +160_F)
3582NS: -40 to +82_C (-40 to +180_F) with EPDM
elastomers
High‐Temperature Construction
3582A and C only: -18 to +104_C (0 to +220_F)
without gauges
Electrical Classification for 582i
CSA—Intrinsically Safe, Explosion proof, Type n,
Dust‐Ignition proof, DIV 2
FM—Intrinsically Safe, Explosion proof, Type n,
Non‐incendive, Dust‐Ignition proof
ATEX—Intrinsically Safe, Flameproof, Type n
IECEx—Intrinsically Safe, Flameproof, Type n
Refer to Hazardous Area Classifications and Special
Instructions for “Safe Use” and Installation in
Hazardous Locations, starting on page 8 for
additional information.
Note: These classifications also apply to the 3582i
positioner
Housing Classification for 582i

Hazardous Area Classification for 3582
3582 valve positioners comply with the requirements
of ATEX Group II Category 2 Gas and Dust

Note: This rating does not apply to the 3582i
Pressure Gauges
40 mm (1.5 inch) diameter with plastic case and brass
connection J triple scale (PSI, MPa, and bar) or
J dual scale (PSI and kg/cm2)
Pressure Connections
1/4‐18 NPT
Electrical Connection for 3582i
1/2‐14 NPT conduit connection
Maximum Valve Stem Travel
105 mm (4.125 inches); adjustable to obtain lesser
travels with standard input signals

CSA—Type 3 Encl.
FM—NEMA 3, IP54
ATEX—IP64

Characterized Cams
See characterized cams section

IECEx—IP54
Mount instrument with vent on the side or bottom if
weatherproofing is a concern.
Note: These classifications also apply to the 3582i
positioner
Other Classifications/Certifications

Approximate Weight
3582: 2.5 kg (5.5 pounds)
3582i: 3.6 kg (8 pounds)
Declaration of SEP

INMETRO— National Institute of Metrology, Quality
and Technology (Brazil)
KGS— Korea Gas Safety Corporation (South Korea)
NEPSI— National Supervision and Inspection Centre
for Explosion Protection and Safety of
Instrumentation (China)

Fisher Controls International LLC declares this
product to be in compliance with Article 3 paragraph
3 of the Pressure Equipment Directive (PED) 97 / 23 /
EC. It was designed and manufactured in accordance
with Sound Engineering Practice (SEP) and cannot
bear the CE marking related to PED compliance.

Contact your Emerson Process Management sales
office for classification/certification specific
information

However, the product may bear the CE marking to
indicate compliance with other applicable European
Community Directives.

NOTE: Specialized instrument terms are defined in ANSI/ISA Standard 51.1 ‐ Process Instrument Terminology.
1. The pressure and temperature limits in this document and any applicable standard or code limitation should not be exceeded.
2. Natural gas should contain no more than 20 ppm of H2S.
3. Normal m3/hr—normal cubic meters per hour (0_C and 1.01325 bar, absolute); Scfh—Standard cubic feet per hour (60_F and 14.7 psia).

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Instruction Manual

3582, 582i, and 3583

D200138X012

February 2015

Table 2. Specifications for Fisher 3583 Valve Stem Position Transmitters
Input Signal

Operating Influence

105 mm (4.125 inches) of valve stem travel;
adjustable to obtain full output signal with lesser
stem travels

Output signal changes 1.67 percent per bar
(0.23 percent per 2 psig) change in supply pressure
Operative Ambient Temperature Limits(1)

Output Signal

Standard Construction
3583: -40 to +71_C (-40 to +160_F)
High‐Temperature Construction
3583C only: -18 to +104_C (0 to +220_F)

Type: J 0.2 to 1.0 bar (3 to 15 psig) or J 0.4 to 2.0
bar (6 to 30 psig) pneumatic pressure
Action: Field‐reversible between direct and reverse
Output Bellows Pressure Rating(1)
See table 9 for minimum and maximum pressure
ratings (allowable input signal) for each available
range spring

Hazardous Area Classification
3583 valve stem position transmitters comply with
the requirements of ATEX Group II Category 2 Gas
and Dust

Supply Pressure(1)
Recommended: 0.3 bar (5 psi) above upper limit of
output signal range
Maximum: 2.4 bar (35 psig) or pressure rating of
connected equipment, whichever is lower

Pressure Connections
Supply and output pressure connections are 1/4 NPT
internal

Supply Medium: Air or natural gas(2)
Maximum Steady‐State Air Consumption(3)

Maximum Valve Stem Travel

1.4 bar (20 psig) Supply: 0.38 normal m3/hr

105 mm (4.125 inches); adjustable to obtain full
output signal with lesser stem travels

(14.0 scfh)
2.0 bar (30 psig) Supply: 0.48 normal m3/hr
(18.0 scfh)
2.4 bar (35 psig) Supply: 0.54 normal m3/hr
(20.0 scfh)

Cam
Linear
Approximate Weight

Reference Accuracy
±1 percent of output signal span

2.5 kg (5.5 pounds)

NOTE: Specialized instrument terms are defined in ANSI/ISA Standard 51.1 - Process Instrument Terminology.
1. The pressure and temperature limits in this document and any applicable standard or code limitation should not be exceeded.
2. Natural gas should contain no more than 20 ppm of H2S.
3. Normal m3/hr—normal cubic meters per hour (0_C and 1.01325 bar, absolute); Scfh—Standard cubic feet per hour (60_F and 14.7 psia).

Table 3. Fisher 582i Electro‐Pneumatic Converter(1) EMC Summary Results—Immunity
Port

Enclosure

I/O
signal/control

Phenomenon

Basic Standard

Test Level

Performance
Criteria(2)

Electrostatic Discharge (ESD)

IEC 61000‐4‐2

Radiated EM field

IEC 61000‐4‐3

Rated power frequency magnetic field

IEC 61000‐4‐8

4 kV contact
8 kV air
80 to 1000 MHz @ 10V/m with 1 kHz AM at 80%
1400 to 2000 MHz @ 3V/m with 1 kHz AM at 80%
2000 to 2700 MHz @ 1V/m with 1 kHz AM at 80%
60 A/m at 50 Hz

Burst (fast transients)

IEC 61000‐4‐4

1 kV

Surge

IEC 61000‐4‐5

1 kV (line to ground only, each)

B

Conducted RF

IEC 61000‐4‐6

150 kHz to 80 MHz at 3 Vrms

A

A
A
A
A

Specification limit = ±1% of span
1. The information contained in the table also applies to the 3582i positioner.
2. A = No degradation during testing. B = Temporary degradation during testing, but is self‐recovering.

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3582, 582i, and 3583

Instruction Manual

February 2015

D200138X012

Description (continued)
Under the 10CFR50, Appendix B, quality assurance program, the 3582NS positioner is qualified commercial grade
dedicated. These can be supplied as 10CFR, Part 21 items.
The 3582i is an electro‐pneumatic valve positioner, consisting of a 582i electro‐pneumatic converter installed on a
3582 pneumatic valve positioner. The 3582i valve positioner provides an accurate valve stem position that is
proportional to a DC current input signal.
The 582i electro‐pneumatic converter is a modular unit that can be installed at the factory or in the field. However, do
not install a 582i converter on an existing positioner until you contact your Emerson Process Management sales office
for application assistance.
The 582i converter receives the DC current input signal and, through a nozzle/flapper arrangement, provides a
proportional pneumatic output signal. This pneumatic output signal provides the input signal to the pneumatic valve
positioner, eliminating the need for a remote‐mounted transducer.
3583 pneumatic valve stem position transmitters are for use with sliding‐stem diaphragm actuators. These units
provide an output signal that is directly proportional to the valve stem position.
Refer to the type number description for a detailed explanation of type numbers.

Type Number Descriptions
The following descriptions provide specific information on the different valve positioner or valve stem position
transmitter constructions. If the type number is not known, refer to the nameplate on the positioner. For the location
of the nameplate, refer to key 25 in figure 21.
3582—Pneumatic valve positioner with bypass and instrument, supply, and output pressure gauges.
3582A—Pneumatic valve positioner without bypass and without pressure gauges.
3582C—Pneumatic valve positioner without bypass and with automotive tire valves instead of pressure gauges.
3582D—Pneumatic valve positioner with bypass and with automotive tire valves instead of pressure gauges.
3582G—Pneumatic valve positioner without bypass and with instrument, supply, and output pressure gauges.
3582NS—Pneumatic valve positioner for nuclear service applications with or without bypass and with automotive tire
valves instead of pressure gauges.
3582i—Electro‐pneumatic valve positioner without bypass; with 582i converter; and with: supply and output pressure
gauges, automotive tire valves, or pipe plugs.
582i—Electro‐pneumatic converter with: supply and output pressure gauges, automotive tire valves, or pipe plugs.
Used for conversion of a 4‐20 mA input signal to a 0.2 to 1.0 bar (3 to 15 psig) input signal for the pneumatic valve
positioner.
3583—Pneumatic valve stem position transmitter with supply and output pressure gauges.
3583C—Similar to the 3583 valve stem position transmitter except with automotive tire valves in place of pressure
gauges.

Specifications
Specifications for the valve positioners are shown in table 1. Specifications for the valve stem position transmitters are
shown in table 2.

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Instruction Manual

3582, 582i, and 3583

D200138X012

February 2015

Refer to the unit nameplate to determine the type of positioner or transmitter, supply pressure, etc.

WARNING
This product is intended for a specific current range, temperature range and other application specifications. Applying
different current, temperature and other service conditions could result in malfunction of the product, property damage or
personal injury.

Educational Services
For information on available courses for 3852, 3582i and 3583, as well as a variety of other products, contact:
Emerson Process Management
Educational Services, Registration
Phone: +1-641-754-3771 or +1-800-338-8158
e‐mail: education@emerson.com
http://www.emersonprocess.com/education

Installation
If using natural gas as the pneumatic supply medium, natural gas will be used in the pressure connections of the unit
to any connected equipment. The unit will vent natural gas into the surrounding atmosphere, unless it is remote
vented.

WARNING
Always wear protective clothing, gloves, and eyewear when performing any installation operations to avoid personal
injury.
If installing into an existing application, also refer to the WARNING at the beginning of the Maintenance section in this
instruction manual.
Check with your process or safety engineer for any additional measures that must be taken to protect against process
media.

WARNING
Personal injury or property damage may result from fire or explosion if natural gas is used as the supply medium and
appropriate preventive measures are not taken. Preventive measures may include, but are not limited to, one or more of
the following: Remote venting of the unit, re‐evaluating the hazardous area classification, ensuring adequate ventilation,
and the removal of any ignition sources.
3582i does not meet third party approvals for use with natural gas as the supply medium. Use of natural gas as the supply
medium can result in personal injury or property damage from fire or explosion.

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3582, 582i, and 3583

Instruction Manual

February 2015

D200138X012

Note
All valve positioners and valve stem position transmitters are shipped with foam rubber packing material inside the case. Remove
the cover (key 33, figure 21) and the packing material before attempting to operate the unit. Make sure all vent openings are clear
before installation of the unit and that they remain clear during use.

Typically, the positioner or transmitter is ordered with the actuator. If so, the factory mounts the valve positioner or
valve stem position transmitter and connects the valve positioner output to the actuator. If a Fisher 67CFR
filter‐regulator is specified, it may be integrally mounted to the valve positioner or valve stem position transmitter,
except for the 3582NS positioner. For the 3582NS, the 67CFR is separately mounted, not integrally mounted to the
positioner.

Note
In some cases, alignment and calibration of the valve positioner or valve stem position transmitter at the factory may not be
possible, and field alignment and calibration is required. Before putting the valve positioner or valve stem position transmitter into
service, check the operation of the unit to be sure it is calibrated. If the valve positioner or valve stem position transmitter requires
alignment or calibration, refer to the appropriate calibration instructions in this manual.

If the valve positioner or valve stem position transmitter is ordered separately, disconnected, or removed from the
actuator, refer to the appropriate sections of this manual for installation information.

Hazardous Area Classifications and Special Instructions for “Safe Use” and
Installation in Hazardous Locations for 582i Electro‐Pneumatic Converter
Note
These Special Instructions for “Safe Use” and Installation in Hazardous Locations also apply to 3582i positioners.

Certain nameplates may carry more than one approval, and each approval may have unique installation/wiring
requirements and/or conditions of “safe use”. These special instructions for “safe use” are in addition to, and may
override, the standard installation procedures. Special instructions are listed by approval.

Note
This information supplements the nameplate markings affixed to the product.
Always refer to the nameplate itself to identify the appropriate certification. Contact your Emerson Process Management sales
office for approval/certification information not listed here.

WARNING
Failure to follow these conditions of “safe use” could result in personal injury or property damage from fire or explosion,
and area re‐classification.

8

Instruction Manual

3582, 582i, and 3583

D200138X012

February 2015

CSA
Intrinsically Safe, Explosion proof, Type n, Dust‐Ignition proof, DIV 2
No special conditions for safe use.
Refer to table 4 for additional information.
Table 4. Hazardous Area Classifications for Fisher 582i Converter(1)—CSA (Canada)
Certification
Body

CSA

Certification Obtained
Intrinsically Safe
Ex ia IIC T4/T5/T6 per drawing GE28591 (figure 28)
Ex ia Intrinsically Safe
Class I, II Division 1 GP A,B,C,D,E,F,G T4/T5/T6
per drawing GE28591 (figure 28)
Explosion Proof
Ex d IIC T6
Class I, Division I, GP A,B,C,D T6
Type n
Ex nA IIC T6
Class I, Division 2, GP A,B,C,D T6
Class II, Division 1 GP E,F,G T6
Class II Division 2 GP F,G T6

Entity Rating
Vmax = 30 VDC
Imax = 150 mA
Pi = 1.25 W
Ci = 0 nF
Li = 0 mH

Temperature Code
T4 (Tamb ≤ 71°C)
T5 (Tamb ≤ 62°C)
T6 (Tamb ≤ 47°C)

---

T6 (Tamb ≤ 71°C)

---

T6 (Tamb ≤ 71°C)

---

T6 (Tamb ≤ 71°C)

1.These hazardous area classification also apply to 3582i positioners.

FM
Intrinsically Safe, Explosion proof, Type n, Non‐incendive, Dust‐Ignition proof
No special conditions for safe use.
Refer to table 5 for additional information.
Table 5. Hazardous Area Classifications for Fisher 582i Converter(1)—FM (United States)
Certification
Body

Certification Obtained
Intrinsically Safe
Class I Zone 0 AEx ia IIC T4/T5/T6 per drawing GE28590 (figure 29)
Class I, II, III Division 1 GP A,B,C,D,E,F,G T4/T5/T6
per drawing GE28590 (figure 29)

FM

Explosion Proof
Class I Zone 1 AEx d IIC T6
Class I, Division I, GP A,B,C,D T6
Type n
Class I Zone 2 AEx nA IIC T6
Class I Division 2, GP A,B,C,D T6
Class II Division 1, GP E,F,G T6
Class II Division 2, GP F,G T6

Entity Rating
Vmax = 30 VDC
Imax = 150 mA
Pi = 1.25 W
Ci = 0 nF
Li = 0 mH

Temperature Code
T4 (Tamb ≤ 71°C)
T5 (Tamb ≤ 62°C)
T6 (Tamb ≤ 47°C)

---

T6 (Tamb ≤ 71°C)

---

T6 (Tamb ≤ 71°C)

---

T6 (Tamb ≤ 71°C)

1.These hazardous area classification also apply to 3582i positioners.

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ATEX
Standards Used for Certification
EN 60079-0: 2012

EN 60079-31: 2009

EN 60079-1: 2007

EN 61241-0: 2006

EN 60079-11: 2012

EN 61241-1: 2004

EN 60079-15: 2010

EN 61241-11: 2006

Special Conditions for Safe Use
Intrinsically Safe
This equipment is intrinsically safe and can be used in potentially explosive atmospheres.
The electrical parameters of certified equipment which can be connected to the device must not exceed one of these
following values:
Uo ≤ 30 Vdc ; Io ≤ 150 mA ; Po ≤ 1.25 W
Ambient temperature:
T6, at Tamb = 47_C ; T5, at Tamb = 62_C ; T4, at Tamb = 71_C
Flameproof
The flame path is other than required by EN 60079‐1. Contact the manufacturer for information on the dimensions of
the flameproof joints.
Electrical connections are typically made using either cable or conduit.
D If using a cable connection, the cable entry device shall be certified in type of explosion protection flameproof
enclosure “d”, suitable for the conditions of use and correctly installed.
For ambient temperatures over 70_C, cables and cable glands suitable for at least 90_C shall be used.
D If using a rigid conduit connection, an Ex d certified sealing device such as a conduit seal with setting compound
shall be provided immediately to the entrance of the enclosure.
For ambient temperatures over 70_C, the wiring and setting compound in the conduit seal shall be suitable for at least
90_C.
Type n
No special conditions for safe use.
Refer to table 6 for additional information.

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Table 6. Hazardous Area Classifications for Fisher 582i Converter(1)—ATEX
Certificate

Certification Obtained

Entity Rating

Temperature Code

II 1 G & D
Intrinsically Safe
Gas
Ex ia IIC T4/T5/T6 Ga
Dust
Ex ia IIIC Da T109 °C (Tamb ≤ 71°C) / T100 °C (Tamb v 62°C)
/ T85 °C (Tamb ≤ 47°C)

Ui = 30 VDC
Ii = 150 mA
Pi = 1.25 W
Ci = 0 nF
Li = 0 mH

T4 (Tamb ≤ 71°C)
T5 (Tamb ≤ 62°C)
T6 (Tamb ≤ 47°C)
---

II 2 G & D
ATEX

Flameproof
Gas
Ex d IIC T6 Gb
Dust
Ex tb IIIC T74 °C Db (Tamb ≤ 71°C)
II 3 G & D
Type n
Gas
Ex nA IIC T6 Gc
Dust
Ex tc IIIC Dc T85°C (Tamb ≤ 71°C)

---

T6 (Tamb ≤ 71°C)
---

T6 (Tamb ≤ 71°C)
-----

1.These hazardous area classification also apply to 3582i positioners.

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IECEx
Conditions of Certification
Intrinsically Safe

WARNING
Substitution of components may impair intrinsic safety.

-40_C ≤ Ta ≤ +71_C; T6 (Ta ≤ +47_C); T5 (Ta ≤ +62_C); T4 (Ta ≤ +71_C)
Entity Parameters
Ui = 30 V, li = 150 mA, Pi = 1.25 W, Ci = 0 nF, Li = 0 mH
Flameproof

WARNING
Disconnect power before opening.

-40_C ≤ Ta ≤ +71_C; T6 (Ta ≤ +71_C)
Type n

WARNING
Disconnect power before opening.

-40_C ≤ Ta ≤ +71_C; T6 (Ta ≤ +71_C)
Refer to table 7 for approval information.

Table 7. Hazardous Area Classifications for Fisher 582i Converter(1)—IECEx
Certificate

Certification Obtained
Intrinsically Safe
Gas
Ex ia IIC T4/T5/T6 Ga

IECEx

Flameproof
Gas
Ex d IIC T6 Gb
Type n
Gas
Ex nA IIC T6 Gc

1.These hazardous area classification also apply to 3582i positioners.

12

Entity Rating

Temperature Code

Ui = 30 VDC
Ii = 150 mA
Pi = 1.25 W
Ci = 0 nF
Li = 0 mH

T4 (Tamb ≤ 71°C)
T5 (Tamb ≤ 62°C)
T6 (Tamb ≤ 47°C)

---

T6 (Tamb ≤ 71°C)

---

T6 (Tamb ≤ 71°C)

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February 2015

Mounting
Key numbers used in this procedure are shown in figure 2 except where indicated.
1. Figure 2 shows the various mounting parts required for mounting on Fisher actuators. Mounting parts for actuators
that require spacers have the spacers (key 50) included. 657 and 667 actuators, sizes 70 through 100, with or
without a side‐mounted handwheel, use spacers (keys 97 and 102) between the stem connector and the connector
arm (key 48). On all other actuators that use spacers, place the spacers (key 50) between the mounting plate
(key 63) and the actuator mounting boss.
When mounting the valve positioner or valve stem position transmitter on an actuator by another manufacturer,
provide spacers, if necessary, by cutting sections from 1/2 or 3/8‐inch pipe so that the “X” dimension matches the
value given in figure 3.
Figure 2. Mounting Assembly

657, 657MO, 667, 667MO
SIZE 80 UP TO 51 mm (2 IN) TRAVEL

657
SIZE 70, 87 UP TO 51 mm (2 IN) TRAVEL

67CFR

657, 657MO, 667, 667MO
SIZE 100 ALL TRAVEL
657, 657MO, 667, 667MO
SIZE 80 52 TO 76 mm (2.0625 TO 3 IN) TRAVEL
657MO, 667MO
SIZE 70, 87 78 TO 102 mm (3.0625 TO 4 IN) TRAVEL
657‐4MO, 667‐4MO
SIZE 70, 87 102 mm (4 IN) TRAVEL

657MO, 667MO
SIZE 70, 87 UP TO 78 mm (3 IN) TRAVEL

513
SIZE 32
656
ALL SIZES
657MO
SIZE 34, 45, 50, 60
657‐4, 667‐4
SIZE 70, 87 102 mm (4 IN) TRAVEL
657, 667
SIZE 70, 87 78 TO 102 mm (3.0625 TO 4 IN) TRAVEL
667
SIZE 70, 87, 52 TO 78 mm (2.0625 TO 3 IN) TRAVEL

NOTE:
KEY 55 (TUBING CONNECTOR) NOT SHOWN
41B8569‐D SHT 1 AND 2

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2. As shown in figures 2 and 4 attach the connector arm (key 48) to the stem connector so that the connector arm
extends through the yoke legs on the side of the lower mounting boss.
3. Attach the valve positioner or valve stem position transmitter to the mounting plate (key 63) using the holes shown
in figure 5.
4. Mount the 67CFR regulator:
D 3582 valve positioners (except 3582NS) and 3583 valve stem position transmitters, mount the regulator on the
integral boss on the bypass block.
D 3582NS valve positioners, use the mounting plate with provision for separately mounting the 67CFR regulator.
Separately mount the positioner and the regulator on the mounting plate.
D 3582i valve positioners, mount the regulator on the integral boss that is part of the 582i converter housing.
5. As shown in figure 5, the mounting bracket has four sets of holes for mounting the assembly to the actuator. Refer
to table 8 to determine which set of mounting holes to use, then attach the assembly to the lower mounting pad on
the actuator.

CAUTION
To avoid equipment damage, be certain the connector arm clears the valve positioner or valve stem position transmitter
case as the actuator moves through its complete stroke.

6. Position the actuator to its mid‐travel position using a handwheel or manual loading regulator.
7. Slip the round end of the travel pin (key 60) into the rotary shaft arm (key 2) slot as shown in figure 4.
8. Slide the square end of the travel pin into the pin holder and pin lock (keys 61 and 59). Place the pin lock and holder
into the slot in the connector arm (key 48). Screw the cap nut (key 62) onto the pin lock (key 59), but do not
tighten.
9. With the actuator at its mid‐travel position, lift the rotary shaft arm so that the 0‐degree index marks on the rotary
shaft arm are aligned with the case index marks as shown in figure 6.

CAUTION
Never set the travel pin at a setting that is less than the actual actuator stroke. Setting the travel pin at a setting that is less
than the actual actuator stroke will cause the cam to rotate more than 60 degrees, causing damage to the cam or other
parts.

10. Position the travel pin so that it is perpendicular to the connector arm and aligns with the correct actuator stem
travel index on the rotary shaft arm. Tighten the cap nut to a torque of 10.6 N•m (94 in•lbf) (key 62 in figure 4).
11. Check the travel pin setting using the following procedures:
D For standard travel pin setting (that is, with the travel pin setting equal to total actuator travel). Stroke the
actuator to each end of its travel. At each end of travel, the 30‐degree index marks on the rotary shaft arm should
align with the case index marks. If the index marks are not in line, loosen the cap nut (key 62) and slide the travel
pin (key 60) in the rotary shaft arm slot until the 30‐degree index marks align with the case index marks. Be sure
the travel pin remains perpendicular to the connector arm. After making this adjustment, tighten the cap nut
and re‐check the arm at the mid‐travel position. If the 0‐degree index marks do not align, repeat this procedure.
D For special travel pin setting (that is, with the travel pin setting greater than total actuator travel). Check the
index marks using a procedure similar to the standard settings procedure. The arm will not rotate a full 60

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degrees as the actuator is stroked, and the 30‐degree index marks on the cam will be short of aligning with the
case index marks. If necessary, adjust the travel pin position so that the 30‐degree marks are the same distance
from the respective case index mark at each end of actuator travel.

Figure 3. Spacing for Mounting on Other than Fisher Actuators

STEM TRAVEL

X
9.5 mm (0.375 Inch) Stem

12.7 mm (0.5 Inch) Stem

19.1 mm (0.75 Inch) Stem

Millimeters

29 or less
38
51
64
76

81
90
102
113
124

87
97
108
119
130

100
109
121
132
143

89
102

135
146

141
152

154
165

1.125 or less
1.5
2
2.5
3

3.19
3.56
4.00
4.44
4.88

3.44
3.81
4.25
4.69
5.12

3.94
4.31
4.75
5.19
5.62

3.5
4

5.31
5.75

5.56
6.00

6.06
6.50

Inches

X

30_ MAX.

30_ MAX.

11B6520‐F

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Figure 4. Isometric View Showing Motion Feedback Arrangement and Typical Stem Connection
ACTUATOR
STEM
STEM
CONNECTOR

TRAVEL PIN
(KEY 60)

CONNECTOR ARM
(KEY 48)
CAP NUT
(KEY 62)
ROTARY SHAFT
ARM (KEY 2)

POSITIONER

CV1768-C
A1397‐2

YOKE
VALVE PLUG STEM

Figure 5. Mounting Plates Used with Fisher 3582 Valve Positioners and 3583 Valve Stem Position Transmitters

SET NO. 1
SET NO. 2
SET NO. 3

HOLES FOR
MOUNTING
PLATE TO
ACTUATOR

HOLES FOR
MOUNTING REGULATOR

HOLES FOR
MOUNTING
POSITIONER
TO PLATE

MOUNTING PLATE FOR MOUNTING POSITIONER
WITH INTEGRALLY MOUNTED FILTER REGULATOR
BF2635-B

16

SET NO. 4

HOLES FOR MOUNTING
PLATE TO ACTUATOR

HOLES FOR MOUNTING
POSITIONER TO PLATE

MOUNTING PLATE FOR MOUNTING POSITIONER WITH
SEPARATELY MOUNTED FILTER REGULATOR

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February 2015

Figure 6. Rotary Shaft Arm and Case Index Marks
CASE INDEX MARKS

30 DEGREES

30 DEGREES

0‐DEGREE
ARM INDEX
MARKS 2

1

30‐DEGREE
ARM INDEX
MARKS
ARM AT MID‐TRAVEL POSITION
ACTUATOR STEM TRAVEL INDEXES

1

NOTES:
.........MAXIMUM
ROTATION FROM MID‐TRAVEL POSITION.
1
2.........ALIGN INDEX MARKS AS SHOWN FOR MID‐TRAVEL POSITION.
70CA0750‐C
A2452‐2

Table 8. Fisher 3582 and 3583 Mounting Information
ACTUATOR

MAXIMUM
TRAVEL
mm
Inch

MOUNTING
HOLES
SET NO.(1)

TRAVEL PIN
POSITION(2)

Type

Size

513 & 513R

20
32

19
19

0.75
0.75

2
2

Normal
Normal

656

30
40
60

51
89
102

2
3.5
4

4
4
4

Inverted
Inverted
Inverted

70

102

4

3

Inverted

70
87

102
102

4
4

2
1

Inverted
Inverted

30
34
40
40

54
54
79
89

2.125
2.125
3.125
3.5

3
3
3
3

Normal
Normal
Normal
Normal

46
46
47
47
60
70

79
105
79
105
105
105

3.125
4.125
3.125
4.125
4.125
4.125

2
2
2
1
4
2

Normal
Normal
Inverted
Inverted
Inverted
Inverted

70
87

102
102

4
4

1
1

Normal
Normal

657‐4 Without
Side‐Mounted
Handwheel
657‐4 With
Side‐Mounted
Handwheel

657‐8

667‐4 Without
Side‐Mounted
Handwheel

ACTUATOR
Type

657 & 667
Without
Side‐Mounted
Handwheel

657 & 667
With
Side‐Mounted
Handwheel

Size

MAXIMUM
TRAVEL
mm
Inch

MOUNTING HOLES
SET NO.(1)
657
667

TRAVEL PIN
POSITION(2)

30
34
40
45
45
50
60

19
19
38
19
51
51
51

0.75
1.125
1.5
0.75
2
2
2

3
3
2
1
1
1
1

4
2
3
4
1
2
2

Normal
Normal
Normal
Inverted(3)
Normal
Normal
Normal

70

51
52-76
78-102

2
2.0625‐3
3.0625‐4

2
3
3

1
2
1

Normal
Normal
Inverted(4)

80

76

3

2

2

Normal

87

51
52‐76
78‐102

2
2.0625‐3
3.0625‐4

2
2
3

2
2
1

Normal
Normal
Inverted(4)

100

102

4

4

4

Inverted

34
40
45
50
60
70
80

19
38
51
51
51
102
76

0.75
1.5
2
2
2
4
3

2
1
1
4
3
2
2

2
2
4
1
1
2
2

Normal
Normal
Normal
Inverted(4)
Inverted(4)
Inverted
Normal

87

76
78-102

3
3.0625‐4

2
2

2
1

Normal
Inverted

1. The indicated set number should be considered a reference point only, due to the variables related to making up the stem connection.
2. Normal position is shown in figure 4.
3. Travel pin position for 657 is normal.
4. Travel pin position for 667 is normal.

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Changing Cam Position
Refer to figure 21 for a typical cam illustration and key number locations.

Note
D For Valve Positioners: The small arrow on the cam must point in the direction of stem movement with increasing actuator
diaphragm pressure.
D For Valve Stem Position Transmitters: If the arrow on the cam points up toward the nozzle, output pressure increases with
downward stem movement. If the arrow points down, output pressure decreases with downward stem movement.
If the arrow is pointing in the wrong direction, use the following procedure to remove, reverse, and re‐install the cam.

When mounting a valve positioner or valve stem position transmitter, check to see if the correct cam (key 4) and cam
position has been selected. To change the cam or cam position, unhook the extension spring (key 38), and remove the
cam bolt and locking nut (keys 6 and 45). Remove the cam and spring retainer bracket (key 43).
To install the cam, screw the locking nut all the way onto the cam bolt. Attach the cam and spring retainer bracket to
the shaft assembly with the cam bolt. Tighten the bolt to secure the cam. Then, tighten the locking nut against the
spring retainer bracket. Hook the spring into the spring retainer bracket.
Details on cam characteristics can be found on page 24 in the cam information portion of the operating information
section.

Pressure Connections
WARNING
Valve positioners and valve stem position transmitters are capable of providing full supply pressure to connected
equipment. To avoid personal injury or equipment damage caused by parts bursting from system overpressure, make sure
the supply pressure never exceeds the maximum safe working pressure of any connected equipment.

Pressure connections are shown in figure 7. All pressure connections are 1/4 NPT internal. Use 3/8‐inch tubing for all
pressure connections. After making pressure connections, turn on the supply pressure and check all connections for
leaks.

Supply Connection
WARNING
Personal injury or property damage may occur from an uncontrolled process if the supply medium is not clean, dry, oil‐free
air, and noncorrosive gas. While use and regular maintenance of a filter that removes particles larger than 40 micrometers
in diameter will suffice in most applications, check with an Emerson Process Management field office and industry
instrument air quality standards for use with corrosive air or if you are unsure about the proper amount or method of air
filtration or filter maintenance.
3582i does not meet third party approvals for use with natural gas as the supply medium. Use of natural gas as the supply
medium can result in personal injury or property damage from fire or explosion.

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Figure 7. Typical Dimensions and Connections
141.2
(5.56)
119.1
(4.69)
7.9
(.31)

246.1
(9.69)
182.6
(7.19)
CL OF ACTUATOR

139.7
(5.50)
57.2
(2.25)
12.7
(0.50)

1/2‐14 NPT
CONDUIT
CONN

8.6 (.34) ∅ HOLES
SPACED 17.5 (.69)
APART

289.0
(11.38)

1/4‐18 NPT
OUTLET CONN
PLUGGED
1/4‐18 NPT
OUTPUT CONN

1/4‐18 NPT
SUPPLY CONN

3/8‐18 NPT
VENT CONN
1/4‐18 NPT
OPTIONAL OUTPUT
CONN PLUGGED

3582i
139.7
(5.50)

141.2
(5.56)

57.2
(2.25)

127.0
(5.00)

261
(10.26)
CL OF ACTUATOR

7.9
(.31)

1/4‐18 NPT
OUTPUT CONN

12.7
(.50)

8.6 (.34) ∅ HOLES
SPACED 17.5 (.69)
APART
204.7
(8.06)

3/8‐18 NPT
VENT CONN
1/4‐18 NPT
OUTLET CONN
PLUGGED
11B6519‐G
11B6520‐F
C0775‐1

1/4‐18 NPT
SUPPLY CONN

3582
(DIMENSIONS FOR 3582A, C, D, AND G ARE THE SAME)

1/4‐18 NPT
OUTPUT CONN
mm
(INCH)

CAUTION
Use a clean, dry, oil‐free air supply with instruments containing EPDM components. EPDM is subject to degradation when
exposed to petroleum‐based lubricants.

Supply pressure must be clean, dry, oil‐free air or noncorrosive gas. Use a 67CFR filter regulator with standard 5
micrometer filter, or equivalent, to filter and regulate supply air. Except for the 3582NS, the filter regulator can be

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mounted on the positioner. For the 3582NS the regulator can be mounted on the mounting plate with the positioner
but not on the positioner. The supply pressure should be high enough to permit setting the regulator 0.3 bar (5 psi)
above the upper limit of the appropriate pressure range, for example: 1.4 bar (20 psig) for a 0.2 to 1.0 bar (3 to 15 psig)
range. However, do not exceed the maximum allowable supply pressure of 3.4 bar (50 psig) nor the pressure rating of
any connected equipment.
Connect the nearest suitable supply source to the 1/4 NPT IN connection on the filter regulator (if furnished) or to the
1/4 NPT SUPPLY connection on the positioner block assembly.

Output Connection
A factory mounted valve positioner has the valve positioner output piped to the supply connection on the actuator. If
mounting the valve positioner in the field, connect 3/8‐inch tubing between the 1/4 NPT valve positioner connection
marked OUTPUT and the actuator supply pressure connection. Connect the valve stem position transmitter
connection marked OUTPUT to an instrument that indicates valve stem position.

Instrument Connection
For a 3582 pneumatic valve positioner connect 3/8‐inch tubing from the control device to the 1/4 NPT INSTRUMENT
connection. If the control device is mounted on the control valve assembly by the factory, this connection is made.
The 3582i electro‐pneumatic valve positioner requires a 4‐20 milliampere DC current input signal from the control
device. A 1/2 NPT conduit connection is provided for properly wiring electrical installations. For more information, see
the electrical connections section.

Diagnostic Connections
To support diagnostic testing of valve/actuator/positioner/accessory packages, special connectors and hardware are
available. The hardware used includes 1/8 NPT connector bodies and body protectors. If the diagnostic connectors are
ordered for a positioner with gauges, 1/8‐inch stems are also included.
Install the connectors on the 3582 block assembly or 582i housing as shown in figure 8. Before installing the
connectors on the positioner, apply sealant to the threads. Sealant is provided with the diagnostic connections and
hardware.
Figure 8. Diagnostic Connections

3582i
3582 POSITIONERS

GAUGE

BODY PROTECTOR
BODY PROTECTOR
BODY
12B8045‐A
A6077-1

3582 VALVE POSITIONERS

20

STEM PROVIDED
WHEN GAUGE IS
SPECIFIED
12B8046‐C
A6078-2

BODY

3582i VALVE POSITIONER

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3582, 582i, and 3583
February 2015

Vent
WARNING
Personal injury or property damage could result from fire or explosion of accumulated gas if a flammable gas is used as the
supply pressure medium and the positioner/actuator is in an enclosed area. The positioner/actuator assembly does not
form a gas‐tight seal, and when the assembly is enclosed, a remote vent line, adequate ventilation, and necessary safety
measures should be used. For leakage rates, see the Maximum Steady‐State Air Consumption specification. A remote vent
pipe alone cannot be relied upon to remove all hazardous gas. Vent line piping should comply with local and regional codes
and should be as short as possible with adequate inside diameter and few bends to reduce case pressure buildup.

WARNING
3582i does not meet third party approvals for use with natural gas as the supply medium. Use of natural gas as the supply
medium can result in personal injury or property damage from fire or explosion.

CAUTION
When installing a remote vent pipe, take care not to overtighten the pipe in the vent connection. Excessive torque will
damage the threads in the connection.

The vent opening at the back of the case marked VENT should be left open to prevent pressure buildup inside the case
and to provide a drain hole for any moisture that might collect inside the case. The perforated section of the
nameplate normally covers this opening to prevent blockage from debris or insects. Also, ensure the exhaust holes in
the relay (key 32 in figure 21) are kept open.
If a remote vent is required, the vent line must be as short as possible with a minimum number of bends and elbows.
The vent connection is 3/8 NPT internal. Use 3/8‐inch or larger tubing to provide a remote vent. The 582i has a 1/4 NPT
internal vent connection. Use optional remote vent 83L relay for remote vent applications.

Electrical Connections for 3582i Valve Positioner
WARNING
For explosion‐proof applications, disconnect power before removing the converter housing cap.
For Class I, Division 1 explosion‐proof applications, install rigid metal conduit and a conduit seal no more than 457 mm (18
inches) from the converter. Personal injury or property damage might result from explosion if the seal is not installed.
For intrinsically safe installations, refer to the loop schematics shown in figures 28 and 29, factory drawings, or to
instructions provided by the barrier manufacturer for proper wiring and installation.
Select wiring and/or cable glands that are rated for the environment of use (such as hazardous area, ingress protection and
temperature). Failure to use properly rated wiring and/or cable glands can result in personal injury or property damage
from fire or explosion.
Wiring connections must be in accordance with local, regional, and national codes for any given hazardous area approval.
Failure to follow the local, regional, and national codes could result in personal injury or property damage from fire or
explosion.

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Use the 1/2‐14 NPT conduit connection on the 582i converter housing for installation of field wiring. For Class I,
Division I explosion‐proof applications, install rigid metal conduit and a seal no more than 457 mm (18 inches) from
the converter. Also, install conduit according to local and national electrical codes which apply to the application.
Refer to figures 9, 10 and 11 when connecting field wiring from the control device to the converter. Connect the
positive wire from the control device to the converter positive (+) terminal, and the negative wire from the control
device to the converter negative (-) terminal. Do not overtighten the terminal screws. Maximum torque is 0.45 NSm
(4 lbfSin.). Connect the converter grounding terminal to an earth ground.
Figure 9. Typical Field Wiring Diagram

TERMINAL
BLOCK

CONTROL
DEVICE

POSITIONER
HOUSING

FIELD WIRING

1

EARTH
GROUND
NOTES:
1 FOR TROUBLESHOOTING OR MONITORING OPERATION, AN
INDICATING DEVICE CAN BE A VOLTMETER ACROSS A 250 OHM
RESISTOR OR A CURRENT METER.
A3875

Figure 10. Input Equivalent Circuit for Fisher 582i
Converter

Figure 11. Wiring Connections for Fisher 582i
Converter
I/P MODULE
CONVERTER
HOUSING

21B2335‐D
A6012
A7140

22

FIELD
WIRING
CONNECTION

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February 2015

582i Converter Installation
Note
Contact your Emerson Process Management sales office for application information before upgrading an existing 3582 valve
positioner by field installation of a 582i electro‐pneumatic converter.

WARNING
Avoid personal injury from sudden release of process pressure. Before mounting the 582i converter:
D Always wear protective clothing, gloves, and eyewear when performing any maintenance operations.
D Do not remove the actuator from the valve while the valve is still pressurized.
D Disconnect any operating lines providing air pressure or a control signal to the actuator. Be sure the actuator cannot
suddenly open or close the valve.
D Use bypass valves or completely shut off the process to isolate the valve from process pressure. Relieve process pressure
on both sides of the valve.
D Vent actuator loading pressure.
D Use lock‐out procedures to be sure that the above measures stay in effect while you work on the equipment.
D Do not open when an explosive dust atmosphere is present.
D Check with your process or safety engineer for any additional measures that must be taken to protect against process
media.

Note
Before planning to retrofit an installed 3582 positioner, refer to the positioner mounting plate illustrations shown in figure 5.
Mounting plates with a three‐hole mounting pattern (positioner to mounting plate) cannot support a 582i converter. Do not
attempt to mount a 582i converter on an existing 3582 positioner which has a three‐hole mounting pattern.

Isolate the control valve from the line pressure, and release pressure from both sides of the valve body. Use lock‐out
procedures to be sure that the above measures stay in effect while you work on the equipment.
If a 3582 pneumatic valve positioner has previously been installed using a mounting plate with a five‐hole mounting
pattern (positioner to mounting plate), either at the factory or in the field, it can be upgraded to a 3582i
electro‐pneumatic valve positioner by installation of a 582i converter. To install a 582i converter, refer to the following
instructions.

Note
Inspect the existing valve positioner to determine the input signal range. If the input signal range is not 0.2 to 1.0 bar (3 to 15
psig), refer to the appropriate sections of this manual describing input signal ranges and how to change the range spring.

1. Inspect the positioner mounting plate. Be certain that five screws fasten the positioner to the mounting plate. Two
additional screws fasten the plate to the actuator.

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When the positioner is correctly attached to the mounting plate, proceed with the installation by taking the control
valve/actuator/positioner package out of service.
2. Properly vent the actuator loading pressure and the supply pressure. Disconnect the pressure tubing connections to
the valve positioner.
3. Remove the two screws (key 105 in figures 24 or 25) holding the bypass block (key 34A in figures 24 or 25) to the
valve positioner case and remove the bypass block. Save the screws to reattach the 582i converter.
4. Remove and discard the existing gasket (key 104 in figures 24 or 25) between the bypass block and valve positioner
case.
5. Unpack the 582i converter to be installed.
6. Position the new gasket on the 582i converter as shown in figure 26. Insert the existing screws (key 105 in
figures 24 or 25) through the appropriate holes in the 582i converter housing and new gasket.
7. Mate the converter and new gasket to the side of the valve positioner case using the alignment pins on the
converter housing.
8. Tighten the screws.
9. Reconnect the pressure connections according to the instructions given in the pressure connections section of this
manual.
10. Make the electrical connections according to the instructions given in the electrical connections section of this
manual.
11. Complete the standard calibration procedure described in the calibration section of this manual.
12. Return the control valve package to service.

Operating Information
Instructions for setting the zero and span are found in the calibration section.

Valve Positioner Cam Information
Note
The small arrow on the valve positioner cam must point in the direction of stem movement with increasing actuator diaphragm
pressure. If the arrow is pointing in the wrong direction, remove, reverse, and re‐install the cam. Refer to the Changing Cam
Position section of this manual.

Refer to figure 21 for key number locations. Unhook the spring (key 38), and remove the cam bolt and locking nut
(keys 6 and 45). Remove the cam (key 4) and spring retainer bracket (key 43). To install the cam, screw the locking nut
all the way onto the cam bolt. Attach the cam and spring retainer bracket with the cam bolt. Tighten the bolt to secure
the cam. Then, tighten the locking nut against the spring retainer bracket. Hook the spring into the spring retainer
bracket.
When shipped from the factory, 3582 valve positioners and the 3582i valve positioner have a linear cam, Cam A,
installed in the operating position. Two characterized cams, Cams B and C, are available. These characterized cams
may be used to modify the valve flow characteristics.
Figure 12 shows resultant stem travel due to an incremental instrument pressure change for each cam. In figure 12,
the curves are based on 60 degrees cam rotation for 100 percent stem travel. At 50 percent of the input signal span,

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for example, the stem will travel 50 percent with cam A, 68 percent with cam B, and 32 percent with cam C. Figure 13
shows how the flow characteristics change when using the cams with a valve that has equal percentage
characteristics. Figure 14 shows how the flow characteristics change when using the cams with a valve that has linear
characteristics.

PERCENT INSTRUMENT PRESSURE SPAN

Figure 12. Cam Characteristic Curves

CAM
C
CAM
A

REVERSE
ACTING
POSITIONER
DIRECT
ACTING
POSITIONER

CAM
B

PERCENT VALVE STEM TRAVEL
0 PERCENT CORRESPONDS TO
MINIMUM DIAPHRAGM PRESSURE

CK4832‐A

CAM
A
CAM
B

NORMALLY
CLOSED
VALVE

REVERSE
ACTING
POSITIONER
DIRECT
ACTING
POSITIONER

CAM
C
CAM
A
CAM
B

CK4835‐A

NORMALLY
OPEN
VALVE

PERCENT FLOW
INSTRUMENT PRESSURE ‐ FLOW
CHARACTERISTIC WITH EQUAL PERCENTAGE
VALVE PLUG AT CONSTANT PRESSURE DROP

PERCENT INSTRUMENT PRESSURE SPAN

PERCENT INSTRUMENT PRESSURE SPAN

CAM
C

Figure 14. Flow Characteristics with Different Cams
and Linear Valve Plug

REVERSE
ACTING
POSITIONER
DIRECT
ACTING
POSITIONER

Figure 13. Flow Characteristics with Different Cams
and Equal Percentage Valve Plug

CAM
C
CAM
A
CAM
B

NORMALLY
CLOSED
VALVE

CAM
C CAM
A
CAM
B

NORMALLY
OPEN
VALVE

PERCENT FLOW
INSTRUMENT PRESSURE ‐ FLOW
CHARACTERISTIC WITH LINEAR VALVE
PLUG AT CONSTANT PRESSURE DROP

CK4833‐A

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When cam A is the operating cam, there is a linear relationship between an incremental instrument pressure change
and the resultant valve stem travel. The flow characteristic is that of the control valve. Installing either cam B or C as
the operating cam changes the relationship between the incremental instrument pressure change and valve stem
travel, thereby modifying the valve flow characteristic.

Valve Stem Position Transmitter Cam Information
Note
If the small arrow on the valve stem position transmitter cam points up toward the nozzle, output pressure increases with
downward stem movement. If the arrow points down, output pressure decreases with downward stem movement. If the arrow is
pointing in the wrong direction, remove, reverse, and re‐install the cam. Refer to the Changing Cam Position section of this
manual.

Refer to figure 21 for key number locations. Unhook the spring (key 38), and remove the cam bolt and locking nut
(keys 6 and 45). Remove the cam (key 4) and spring retainer bracket (key 43). To install the cam, screw the locking nut
all the way onto the cam bolt. Attach the cam and spring retainer bracket with the cam bolt. Tighten the bolt to secure
the cam.
Then, tighten the locking nut against the spring retainer bracket. Hook the spring into the spring retainer bracket.
The linear cam is the only cam available for the 3583 valve stem position transmitter. There is always a linear
relationship between stem travel and the stem position transmitter output.

Valve Positioner Bypass Operation
3582 and 3582D valve positioners, and 3582NS positioners with bypass, are supplied with a bypass assembly. A handle
on the bypass assembly permits selecting positioner or bypass operation. Refer to figure 24 for key number locations.

CAUTION
Do not use bypass when the valve positioner is reverse‐acting or is in split‐range operation. In these cases, bypassing the
valve positioner sends the input signal directly to the actuator. Such a change will affect the desired operation and possibly
upset the system. Use bypass only when the input signal range is the same as the valve positioner output range required for
normal actuator operation.

Labels on the bypass block (key 34A) and a pointer on the bypass handle (key 34D) indicate if the input signal from the
instrument goes to the positioner or directly to the control valve actuator. Push the bypass handle toward the back of
the positioner to move the pointer over the word POSITIONER. With the bypass handle in this position, the input signal
goes to the valve positioner bellows and the output pressure of the valve positioner goes to the actuator. Pull the
bypass handle forward to move the pointer over the word BYPASS. In this position, the input signal goes directly to the
actuator.

Note
A difference between the input signal pressure and the valve positioner output pressure could cause a transient bump in the
controlled system when the bypass handle is moved to BYPASS.

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With a reverse‐acting or split‐range valve positioner, the bypass handle may be locked in the POSITIONER position so
that bypass cannot be used. To lock the bypass handle in the POSITIONER position, first shut off the instrument and
supply pressure to the valve positioner. Then, remove the hex head shoulder screw from the center of the handle.
Remove the handle and rotate it 180 degrees and re‐install it with the handle between the two lugs cast on the bypass
block. Replace the shoulder screw.

Input Signal Ranges
Standard input signal ranges for valve positioners and valve stem position transmitters are shown in table 9. Changing
from one standard range to another requires changing the range spring. To change the range spring, refer to the
instructions for changing the range spring in the maintenance section of this manual. Split‐range operation of 3582
valve positioners or the 3582i valve positioner normally does not require changing the spring. Refer to the section
below for split‐range information.
Table 9. Standard Instrument Input Signals and Range Springs
INSTRUMENT INPUT
SIGNAL RANGE

STANDARD SPAN

0.2-1.0 bar (3-15 psig)
4-20 mA(2)
0.4-2.0 bar (6-30 psig)

ALLOWABLE INPUT SIGNAL(1)
Minimum

Maximum

0.8 bar (12 psig)

0.07 bar (1 psig)

1.4 bar (21 psig)

16 mA

2 mA

22 mA

1.6 bar (24 psig)

0.07 bar (1 psig)

2.4 bar (35 psig)

RANGE SPRING
COLOR

RANGE SPRING
PART NUMBER

Silver

1V621727012

Red

1V621927012

1. Minimum and maximum allowable input signals ensure functional operation.
2. For 3582i only.

Valve Positioner Split‐Range Operation
3582 valve positioners and the 3582i valve positioner are suitable for split‐range operations. In split‐range operation,
the input signal, either pneumatic or DC current, from a single control device is split between two or more control
valves. No additional parts are required to use an existing valve positioner for split‐range operation.
Table 10 shows some typical split‐ranges for the valve positioners.
Table 10. Split‐Range Capabilities
3582 POSITIONERS
Split

0.2 to 1.0 Bar or 3 to 15 Psig Input Signal

0.4 to 2.0 Bar or 6 to 30 Psig Input Signal

Bar

Psig

Bar

Psig

Two‐way

0.2 to 0.6
0.6 to 1.0

3 to 9
9 to 15

0.4 to 1.2
1.2 to 2.0

6 to 18
18 to 30

Three‐way

0.2 to 0.5
0.5 to 0.7
0.7 to 1.0

3 to 7
7 to 11
11 to 15

0.4 to 0.9
0.9 to 1.5
1.5 to 2.0

6 to 14
14 to 22
22 to 30

3582i POSITIONER
Split

4‐20 Milliampere Input Signal

Two‐way

4 to 12
12 to 20

Three‐way

4 to 9.3
9.3 to 14.7
14.7 to 20

To change to split‐range operation, perform the beam alignment procedures then perform the calibration procedure
using the desired split range inputs that result in full valve travel. For example, for a 3582 positioner with a 0.2 to 1.0
bar (3 to 15 psig) input signal range in a two‐way split, a 0.6 bar (9 psig) input signal should completely stroke the valve
for a 0.2 to 0.6 bar (3 to 9 psig) signal range.

Note
The flapper must approach the nozzle squarely at the midpoint value of the input signal range for proper operation.

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On some applications where the input signal span is comparatively small (as found with split‐range applications), the nozzle
adjustment may not be enough to set the proper starting point. Also, some difficulty may be experienced in keeping a valve
positioner from unloading when the input signal continues to increase above the split‐range.
For example, for a 0.2 to 0.6 bar (3 to 9 psig) input signal range, the input signal could increase to 1.0 bar (15 psig). Continued
bellows travel due to the increased input signal over the split‐range would drive the flapper into the nozzle. The impact could
possibly cause misalignment between the flapper and nozzle. Such a misalignment, in turn, could affect split‐range calibration.
In these cases, adjust the follower assembly screw in addition to the nozzle adjustment to obtain satisfactory results.

Note
3582 valve positioners require a relatively small percentage of the instrument pressure span to obtain full valve travel. With the
travel pin set to equal the valve travel, the input signal change required to fully stroke the valve can be reduced to 33 percent of
normal input signal change. With the travel pin set to a value greater than the valve travel, the input signal change required to fully
stroke the valve can be reduced to a minimum of 20 percent of normal input signal change.

Changing Valve Positioner Action
Converting a 3582 valve positioner or 3582i valve positioner from direct acting (an increasing input signal, either
pneumatic or electrical, increases output pressure) to reverse acting (increasing input signal decreases output
pressure) or vice versa requires no additional parts. The position of the flapper assembly on the beam determines the
action. As shown in figure 15, the beam is divided into quadrants. The direct‐acting quadrant of the beam is labeled
DIRECT and the reverse‐acting quadrant is labeled REVERSE. To change the positioner action, simply move the flapper
assembly to the opposite quadrant of the beam. Perform the calibration procedures in the valve positioner calibration
section.
Figure 15. Partial View for Beam Leveling and Calibration
FLAPPER SETTING
ADJUSTMENT

NOZZLE

BEAM
PIVOT PIN

BELLOWS ASSEMBLY
LOCKNUT
BELLOWS
ASSEMBLY
PIVOT PIN

BEAM PIVOT
LOCKNUT

SECTION A‐A
FLAPPER
ASSEMBLY
BEAM

FLAPPER ASSEMBLY
SCREW

23A0308‐B
A6133

Changing Valve Stem Position Transmitter Action
Refer to figure 21 for key number locations unless otherwise indicated.
The flapper of the 3583 valve stem position transmitter is always positioned in the reverse‐acting quadrant as shown in
figure 19. To reverse the signal, reverse the cam as follows:

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1. Unhook the spring (key 38), and remove the cam bolt (key 6), cam (key 4), and spring retainer bracket (key 43).
2. Screw the locking nut (key 45) all the way onto the cam bolt.

Note
If the arrow stamped on the cam points toward the nozzle, output pressure increases with downward stem movement. If the
arrow points down away from the nozzle, output pressure decreases with downward stem movement.

3. Reverse the cam (key 4) from its original position. Attach the cam and spring retainer bracket with the cam bolt.
Tighten the cam bolt to secure the cam. Then tighten the locking nut against the spring retainer bracket.
4. Hook the spring into the spring retainer bracket.
5. After reversing the cam, perform the calibration procedures in the calibration of valve positioners and transmitters
section.

Calibration Of Valve Positioner Or Valve Stem Position
Transmitter
The following beam alignment and calibration procedures are applicable for both 3582 and 3582i valve positioners
and 3583 valve stem position transmitters.

WARNING
During calibration the valve may move. To avoid personal injury or property damage caused by the release of pressure or
process fluid, provide some temporary means of control for the process.

Beam Alignment
Note
The beam is leveled at the factory prior to shipment. Once the beam is leveled, no additional leveling should be required unless the
beam pivot pin or the bellows assembly pivot pin are changed, the bellows assembly or range spring are replaced, or the valve
positioner is changed to split range operation.

The purpose of beam alignment is to ensure the correct mechanical position of parts so the valve positioner can be
calibrated. Provide the appropriate supply pressure. Also, provide an input signal to the positioner which can be
manually set at the midpoint of the desired input signal range.
Refer to figure 15 for parts locations. Refer to figure 21 for key number locations unless otherwise indicated. Position
the flapper assembly by hand to different settings on the beam assembly or by using a screwdriver in the slot of the
flapper setting adjustment.

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To level the beam, proceed as follows:

Note
In the following steps, if the required rotary shaft arm position cannot be attained when adjusting a pivot point, adjust one of the
other pivot points slightly. Then, repeat the original pivot adjustment. Continue this process until the required arm position can be
attained.

1. Stroke the actuator to its mid‐travel position with a handwheel or a manual loader. Refer to figure 4 and 6. Lift the
rotary shaft arm (key 2) so that the 0‐degree index marks on the rotary shaft arm align with the case index marks as
shown in figure 6. Then, position the travel pin (key 60) so that it is perpendicular to the arm and aligns with the
appropriate total actuator travel index mark on the rotary shaft arm. Tighten the cap nut (key 62).

Note
Valve stem travels less than 29 mm (1.125 inches) require that the travel pin be set at the 1‐1/8 inches travel index mark on the
rotary shaft arm.

2. Loosen the nozzle locknut and turn the nozzle clockwise to its lowest position. Then screw the nozzle out
(counterclockwise) approximately 4 turns and tighten the locknut.

Note
For proper operation, the flapper must approach the nozzle squarely. Inspect the nozzle/flapper alignment. Be sure the flapper is
not loose, bent, or twisted.

3. Remove any loading pressure and/or disengage any handwheel used to position the actuator. Connect the
necessary tubing from the valve positioner output to the actuator pressure connection.
4. Connect the input to the valve positioner and set the input signal value at midrange. For example, for a 3582 valve
positioner with a 0.2 to 1.0 bar (3 to 15 psig) input signal range, set the input signal at 0.6 bar (9 psig). Then apply
supply pressure to the valve positioner.
5. Move the flapper assembly to zero on the beam scale. The 0‐degree index marks on the rotary shaft arm should
align with the case index marks as shown in figure 16. If not, loosen the follower assembly screw locknut and adjust
the follower assembly screw until the 0‐degree index marks on the rotary shaft arm align with the case index marks.
Tighten the locknut.
6. Move the flapper assembly to position 10 on the direct‐acting side of the beam scale. The 0‐degree index marks on
the rotary shaft arm should align with the case index marks as shown in figure 16. If not, loosen the bellows
assembly locknut and adjust the bellows pivot pin until the 0‐degree index marks on the rotary shaft arm align with
the case index marks. Tighten the locknut.
7. Move the flapper assembly to the left to position 10 on the reverse‐acting side of the beam. The 0‐degree index
marks on the rotary shaft arm should align with the case index marks as shown in figure 16. If not, loosen the beam
pivot pin locknut and adjust the beam pivot pin until the 0‐degree index marks on the rotary shaft arm align with
the case index marks. Tighten the locknut.
8. Repeat steps 5, 6, and 7 to optimize alignment. Recheck to make sure the flapper approaches the nozzle squarely. If
it does not, adjust the nozzle and re‐level the beam. After alignment, the valve positioner is ready for calibration.

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Figure 16. Rotary Shaft Arm 0‐Degree and Case Index Marks, Location and Alignment
CASE INDEX MARKS
0‐DEGREE
ARM INDEX
MARKS
1

ARM AT MID‐TRAVEL POSITION
ACTUATOR STEM TRAVEL INDEXES
NOTE:
ALIGN INDEX MARKS AS SHOWN FOR MID‐TRAVEL POSITION.
1
A2452‐3

Calibration
WARNING
During calibration the valve may move. To avoid personal injury or property damage caused by the release of pressure or
process fluid, provide some temporary means of control for the process.

1. Shut off the supply pressure to the valve positioner. Connect or reconnect the necessary tubing from the valve
positioner output to the actuator supply connection. Connect the input to the valve positioner and set the input
signal value at midrange.
2. Move the flapper assembly to approximately position 6 in the proper operating quadrant of the beam (direct or
reverse acting), and apply supply pressure to the valve positioner. The 0 degree index marks on the rotary shaft arm
should align with the case index marks as shown in figure 16 and the actuator should be at its midtravel position. If
not, first check for loose linkage or improper cam installation. A minor nozzle height adjustment might be
necessary to make the desired input signal value correspond to the starting point of travel.
3. Apply an input signal equal to the low value of the input signal range. For example, for a 3582 valve positioner with
a 0.2 to 1.0 bar (3 to 15 psig) input signal range, set the input signal at 0.2 bar (3 psig). Loosen the nozzle locknut
and adjust the nozzle until the actuator moves to the proper end of its travel. Changing the nozzle position is
intended only as a means of zero trim adjustment. Whenever nozzle position is changed, the zero reference point is
changed.
4. Apply an input signal equal to the high value of the input signal range and observe the actuator stem travel. If the
stem travel is short of its expected range, increase the travel by moving the flapper assembly to a higher number on
the beam. If the desired stem travel occurs before the input signal reaches the high value of the input signal range,
decrease the travel by moving the flapper assembly toward a lower number on the beam.
5. Repeat steps 3 and 4 until the correct travel is achieved. Each time the flapper assembly position is changed in
step 4, repeat step 3 to provide proper zero.
Moving the flapper assembly toward zero on the beam scale decreases stem travel. Table 11 lists the minimum
stem travel available for different travel pin settings. For example, with a travel pin setting of 2 the minimum stem
travel possible, for the full input signal range, would be 11 mm (0.4375 inch).

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Note
The positioner will fully vent or pressurize the actuator to supply pressure at the ends of actuator travel when the positioner is
calibrated correctly. Failure to properly calibrate the positioner may result in reduced seat loading.

Table 11. Minimum Travel with Given Pin Position
TRAVEL PIN POSITION ALONG ROTARY SHAFT ARM
1‐1/8
1‐1/2
2
2‐1/2
3
4

MINIMUM TRAVEL AVAILABLE
mm

Inch

6
8
11
13
16
22

0.25
0.3125
0.4375
0.5
0.625
0.875

Principle of Operation
3582 Valve Positioners
The 3582 (3582, 3582NS and 3582A, C, D, and G pneumatic valve positioners) accepts a pneumatic input signal from
a control device. Figure 17 is an operational schematic for a direct‐acting pneumatic valve positioner.
As shown in figure 17, in a diaphragm‐actuated, sliding stem control valve package with a 3582 valve positioner,
supply pressure is connected to the 83L relay. A fixed restriction in the relay limits flow to the nozzle so that when the
flapper is not restricting the nozzle, air can bleed out faster than it is being supplied.
The input signal from the control device is connected to the bellows. When the input signal increases, the bellows
expands and moves the beam. The beam pivots about the input axis moving the flapper closer to the nozzle. The
nozzle pressure increases and, through relay action, increases the output pressure to the actuator. The increased
output pressure to the actuator causes the actuator stem to move downward. Stem movement is fed back to the
beam by means of a cam. As the cam rotates, the beam pivots about the feedback axis to move the flapper slightly
away from the nozzle. The nozzle pressure decreases and reduces the output pressure to the actuator. Stem
movement continues, backing the flapper away from the nozzle, until equilibrium is reached.
When the input signal decreases, the bellows contracts (aided by an internal range spring) and the beam pivots about
the input axis to move the flapper away from the nozzle. Nozzle pressure decreases and the relay permits the release
of diaphragm casing pressure to atmosphere. The actuator stem moves upward. Through the cam, stem movement is
fed back to the beam to reposition the flapper closer to the nozzle. When equilibrium conditions are obtained, stem
movement stops and the flapper is positioned to prevent any further decrease in diaphragm case pressure.
The principle of operation for reverse acting units is similar except that as the input signal increases, the diaphragm
casing pressure is decreased. Conversely, a decreasing input signal causes an increase in the pressure to the
diaphragm casing.

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Figure 17. Schematic Illustration of Fisher 3582 Positioner
OUTPUT TO
ACTUATOR
RELAY
INSTRUMENT INPUT

BELLOWS
SUPPLY

FEEDBACK AXIS
PIVOT
NOZZLE
FLAPPER ASSEMBLY

ROTARY SHAFT ARM

DIRECT ACTING
QUADRANT

TRAVEL PIN

INPUT AXIS
CAM
BEAM

22A7965‐A
A2453‐2

REVERSE ACTING
QUADRANT

3582i Valve Positioner
As shown in figure 18, the 3582i electro‐pneumatic valve positioner has a 582i electro‐pneumatic converter attached
to the valve positioner. The 582i contains an I/P module which provides a pneumatic output proportional to a DC
current input signal. The DC current input operates coils in a force balanced beam system which in turn, control bleed
air through an integral nozzle/flapper arrangement. The nozzle pressure provides the pneumatic input signal pressure
used by the pneumatic valve positioner.
Figure 18. Schematic Illustration of Fisher 3582i Positioner
4‐20 MILLIAMPERE—
INPUT SIGNAL )
PNEUMATIC SIGNAL FROM CONVERTER
582i
CONVERTER

BELLOWS
FEEDBACK AXIS

SUPPLY

NOZZLE
BEAM
DIRECT ACTING
QUADRANT

OUTPUT TO ACTUATOR
RELAY
ROTARY
SHAFT ARM

INPUT AXIS
CAM

PIVOT
FLAPPER ASSEMBLY

REVERSE ACTING
QUADRANT

A4818‐2

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3583 Valve Stem Position Transmitters
3583 (3583, 3583C) pneumatic valve stem position transmitters are mechanically linked to the valve stem in a
diaphragm‐actuated, sliding‐stem control valve package. A change in the position of the valve stem changes the
output pressure produced by the position transmitter. This signal is then piped to a reporting or recording device to
indicate valve stem position.
The action of a valve stem position transmitter can be changed by reversing the internal cam. The valve stem position
transmitter cam is supplied with an arrow stamped on one side. The cam can be positioned to obtain either increasing
or decreasing output pressure with downward stem motion. If the cam arrow points toward the nozzle, the output
pressure increases; if the cam points away, the output pressure decreases with downward stem motion.
Figure 19 depicts a diaphragm actuator which produces downward stem motion for increasing actuator pressure. For
a stem position transmitter, the flapper assembly is always positioned in the reverse‐acting quadrant of the beam.
Supply pressure is connected to the 83L relay. A fixed restriction in the relay limits flow to the nozzle so that when the
flapper is not restricting the nozzle, air can bleed out faster than it is being supplied.
Figure 19. Schematic Illustration of Fisher 3583 Transmitter

OUTPUT TO STEM
POSITION INDICATOR
OR RECORDER
RELAY

BELLOWS
ROTARY
SHAFT
ARM

INPUT AXIS

SUPPLY

NOZZLE
TRAVEL PIN
FLAPPER
BEAM
FEEDBACK AXIS
PIVOT
CAM
22A7964‐A
A2454‐4

OPERATIONAL
QUADRANT

As the pressure to the diaphragm actuator increases, the valve stem moves downward, causing the internal cam to
rotate. Cam rotation causes the beam to pivot about the input axis moving the flapper closer to the nozzle. The nozzle
pressure increases which, through relay action, increases the output pressure.
The output pressure is also connected to the bellows. As the output pressure increases, the bellows expands, causing
the beam to pivot about the feedback axis moving the flapper slightly away from the nozzle until equilibrium is
reached. The position transmitter output pressure is now proportional to the valve stem position.
As the pressure to the diaphragm actuator decreases, the valve stem moves upward, causing the internal cam to
rotate. Cam rotation causes the beam to pivot about the input axis moving the flapper away from the nozzle. The
nozzle pressure decreases which, through relay action, decreases the output pressure. The bellows contracts, causing

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the beam to pivot about the feedback axis and moving the flapper closer to the nozzle until equilibrium is reached. The
position transmitter output pressure is again proportional to the valve stem position.

Maintenance
Due to normal wear or damage from external sources (such as debris in the supply medium), periodic maintenance or
repair of the valve positioner or valve stem position transmitter may be necessary. Maintenance of these units consists
of troubleshooting, removal for inspection, and replacement of component parts.

WARNING
Avoid personal injury from sudden release of process pressure. Before performing any maintenance operations:
D Always wear protective clothing, gloves, and eyewear when performing any maintenance operations.
D Do not remove the actuator from the valve while the valve is still pressurized.
D Disconnect any operating lines providing air pressure, or a control signal to the actuator. Be sure the actuator cannot
suddenly open or close the valve.
D When disconnecting any of the pneumatic connections, natural gas, if used as the supply medium, will seep from the
unit and any connected equipment into the surrounding atmosphere. Personal injury or property damage may result
from fire or explosion if appropriate preventive measures are not taken. Preventive measures may include, but are not
limited to, one or more of the following: ensuring adequate ventilation and the removal of any ignition sources.
D Use bypass valves or completely shut off the process to isolate the valve from process pressure. Relieve process pressure
on both sides of the valve.
D Use lock‐out procedures to be sure that the above measures stay in effect while you work on the equipment.
D Check with your process or safety engineer for any additional measures that must be taken to protect against process
media.

WARNING
3582i does not meet third party approvals for use with natural gas as the supply medium. Use of natural gas as the supply
medium can result in personal injury or property damage from fire or explosion,

WARNING
For explosion proof applications, disconnect power before removing the converter housing cap in an explosive
atmosphere.

WARNING
When replacing components, use only components specified by Emerson Process Management. Substitution with other
components may result in the positioner or transmitter no longer meeting safety certification requirements and personal
injury or property damage.
Always use proper component replacement techniques. Improper techniques and poor quality repairs can impair the safety
features of the device.

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In case of operational difficulties, the valve positioner or valve stem position transmitter should first be checked to see
that adjustments have been properly made. All pressure lines and connections should be checked for leaks.
The pneumatic relay and gaskets should also be inspected and replaced if necessary.
Instructions are given below for:
D changing the range spring;
D replacing gaskets, nozzle O‐rings, and relay;
D adjusting the flapper pivot;
D replacing the 582i converter primary O‐ring and filter;
D replacing the 582i converter cover O‐ring;
D removing the 582i converter; and
D reassembling the 582i converter.

Changing the Range Spring
Unless otherwise noted, key number locations are shown in figure 21.
The range spring is inside the bellows assembly. Standard range spring data is given in table 9. When an input signal
range is split to operate two or more control valves, normally changing the range spring is not necessary. The input
signal range for the range spring is stamped on the nameplate.
Perform the following procedure to change the range spring in a valve positioner or valve stem position transmitter.
1. Unhook the extension springs (keys 27, 77) from the beam (key 29).
2. Loosen and remove the two screws (key 13), and lock washers (key 12) that hold the bellows assembly (key 7) in
place.
3. Lift out the beam and bellows assembly. Be careful not to lose the small O‐ring (key 11).
4. Loosen the machine screw (key 10), and remove the range spring (key 8).
5. Install a new range spring, making sure the small end of the spring is against the spring seat (key 9). Replace the
spring seat and tighten the screw.
6. If the O‐ring (key 11) is worn or damaged, replace it with a new one after applying lubricant (key 94). Make sure the
O‐ring is in place, then install the bellows assembly, securing it with two mounting screws and lock washers.
7. Install the beam over the pivots and hook the springs to the beam.
8. Make any minor adjustments that may be necessary to re‐level the beam as outlined in the beam alignment
procedures of the valve positioners or the valve stem position transmitters calibration section. After leveling the
beam, calibrate the unit according to the appropriate calibration instructions.

Replacing Gaskets
Unless otherwise noted, key numbers used in this procedure are shown in figures 24 and 25.
A gasket (key 34C) is located behind the bypass handle (key 34D) of 3582 valve positioners or the manifold (key 34D)
of 3583 valve stem position transmitters.

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1. Remove the screw (key 34G), and lift out the bypass handle or manifold.
2. Remove the gasket.
3. Apply lubricant (key 94) to both sides of the replacement gasket when used with the bypass assembly of 3582 valve
positioners. Do not apply lubricant to the gasket when the bypass assembly is not used.
4. Set the new gasket in place on the four locating pins and replace the bypass handle or manifold.
The case gasket (key 104) is located between the case (key 1 in figure 21) and the bypass block (key 34A) in a 3582
valve positioner or a 3583 valve stem position transmitter or the housing of the 582i converter (key 1 in figure 26).
5. Remove the two mounting screws (key 105 in figures 24 and 25; key 11 in figure 26) that hold the bypass block or
converter housing to the case and remove the unit to expose the case gasket.
6. Install a new gasket and replace the bypass block or converter housing.

Replacing the Nozzle O‐Ring
Unless otherwise noted, key numbers are shown in figures 20 and 22.
1. Remove the two screws (key 19C) that hold the flapper and follower assembly (keys 19B and 19G) to the
adjustment arm (key 19A).

CAUTION
For proper operation, be careful not to bend or twist the flapper or nick the nozzle orifice during reassembly.

2. Carefully remove the flapper and follower assembly for access to the nozzle (key 18 in figure 21).
3. Loosen the locking nut (key 71), and unscrew the nozzle (key 18).
4. Remove the locking sleeve (key 72) from the nozzle adaptor (key 3). The nozzle adaptor is bonded to the positioner
case with adhesive (key 96) and should not be removed.
5. Inspect the O‐ring (key 73) on the nozzle adapter and replace the O‐ring, if necessary. If replacing the O‐ring, apply
lubricant (key 94) to the O‐ring before installing it on the nozzle adapter.
6. Reinstall the nozzle onto the nozzle adapter, leaving the locking nut loose.
7. Replace the flapper and follower assembly. Make sure the letter “T” on the flapper is visible from the front of the
positioner or transmitter.
8. Perform the beam alignment and calibration procedures in the Calibration of Valve Positioner or Valve Stem
Position Transmitter section.

Replacing the Relay
Note
The relay is not field repairable. If the relay is defective, replace the relay.

Use the following procedure to replace the relay assembly. Refer to figure 21 for key number locations, unless
otherwise noted.

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D200138X012

1. For valve positioners using a bypass, direct action, and a full‐range input signal, place the positioner in bypass
operation by moving the bypass handle to BYPASS. Then, shut off the supply pressure. For all other valve positioners
and valve stem position transmitters, isolate the control valve from the system and shut off all pressure lines.

Note
A difference between input and valve positioner output pressure could cause a transient bump in the controlled system when the
bypass handle is moved to BYPASS.

2. Remove the 83L relay (key 32) from the back of the case by loosening the two mounting screws (key 10, figure 23).
3. Reinstall the new relay assembly on the case, making sure the O‐rings (keys 13 and 15, figure 23) are in place.
Secure with the two mounting screws (key 10, figure 23).
4. Resume operation by moving the bypass handle to the POSITIONER position or by connecting the valve positioner
or valve stem position transmitter and control valve to the system.

Adjusting the Flapper Pivot
Key numbers used in this procedure are shown in figure 20.
1. Loosen the two screws (key 19C).
2. Tighten the pivot pin (key 19L) by compressing the upturned ears of the arm support (key 19K). Tighten the screws
(key 19C) and make sure the flapper (key 19B) does not rub on the supports.
3. The flapper should be snug, but not constricting to pivot action.

Replacing the 582i Converter Primary O‐Ring and Filter
Key numbers used in this procedure are shown in figure 26.
1. Locate and remove the nozzle restriction adaptor assembly (key 4).
2. Inspect and replace, if necessary, the O‐rings (keys 5 and 6). Apply lubricant (key 15) to the O‐ring before replacing.
3. Inspect and replace the filter cartridge (key 23).

Replacing the 582i Converter Housing Cap O‐Ring
Key numbers used in this procedure are shown in figure 26.
1. Unscrew and remove the converter housing cap (key 2). Inspect and replace the O‐ring (key 8), if necessary. Apply
lubricant (key 15) to the O‐ring before replacing.

Removing the 582i Converter
During the following converter removal procedures, refer to figure 26 for key number locations.

CAUTION
The I/P module should never be disassembled because the magnetism in the coils will decrease permanently. If
troubleshooting or alignment attempts indicate a faulty I/P module, replace the module or return the converter to your
Emerson Process Management sales office for repair.

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Note
To check the operation of the I/P module, remove the pipe plug (key 12), and connect a pressure gauge. Provide a 1.4 bar (20 psig)
supply pressure to the converter. With a 4 mA signal the pressure output should read 0.16 to 0.24 bar (2.3 to 3.5 psig). With a 20
mA input signal the pressure output should read 0.96 to 1.07 bar (14.0 to 15.5 psig).

1. Turn off the input signal to the converter. Release all supply pressure from the valve positioner.
2. Remove the housing cap (key 2).
3. Note the location of the wires, disconnect the field wiring from the terminal block. Disconnect the grounding wire
from the external ground screw
(key 10).
4. To remove the I/P module, remove the two screws (key 9), and pull the module out of the housing. Inspect the
O‐ring (key 6) and replace it, if necessary. Apply lubricant (key 15) to the O‐ring before replacing.
a. To remove the entire 582i converter from the 3582i valve positioner, continue with steps 5 through 7.
b. To replace the I/P module only, obtain a replacement I/P module listed in the parts list and refer to the
procedures for reassembling the 582i converter.
5. Disconnect the supply tubing, output tubing, and electrical conduit from the converter.
6. If necessary, remove the 67CFR regulator by removing the two screws (key 13). Then, remove the regulator from
the converter assembly. Inspect the O‐ring (key 3) and replace it if necessary. Apply lubricant (key 15) to the O‐ring
before replacing.
7. Remove the two screws (key 11) holding the 582i converter to the valve positioner case. Remove the converter
from the valve positioner case (key 1 in figure 21). Inspect the gasket (key 20) and replace it if necessary.

Reassembling the 582i Converter
During the following converter reassembly procedures, refer to figure 26 for key number locations.
1. If the 582i converter was removed from the valve positioner, install a new gasket (key 20) between the converter
housing and the valve positioner case. Attach the converter housing to the valve positioner case with the screws
(key 11) and tighten the screws.
2. If the I/P module was removed from the 582i converter, reinstall the I/P module in the converter housing. Secure
the I/P module with the two screws (key 9).
3. If other valve positioner components are removed, refer to the appropriate reassembly procedures and assemble
the valve positioner completely.
4. Reconnect the supply tubing, output tubing, and conduit to the valve positioner.
5. Reconnect the wiring to the terminal block. Do not overtighten the terminal screws. Maximum torque is 0.45 NSm
(4 lbfSin.). Reconnect the grounding wire to the housing ground screw (key 10) and replace the cap (key 2).

Note
To check the operation of the I/P module, remove the pipe plug (key 12), and connect a pressure gauge. Provide a 1.4 bar (20 psig)
supply pressure to the converter. With a 4 milliampere input signal the pressure output should read 0.16 to 0.24 bar (2.3 to 3.5
psig). With a 20 milliampere input signal the pressure output should read 0.96 to 1.07 bar (14.0 to 15.5 psig).

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February 2015

6. Plug the output connection and apply 2.4 bar (35 psig) to the supply pressure connection.

CAUTION
Do not apply a signal greater than 35 mA to the I/P module. Higher signal values may damage the converter module.

7. Apply a 20 milliampere DC current input signal to the converter.
8. Check for leaks using a soap solution. Check any components which were disassembled or disconnected.

Parts Ordering
A serial number is assigned to each valve positioner or valve stem position transmitter and is stamped on the
nameplate. Always refer to this number when corresponding with your Emerson Process Management sales office
regarding spare parts or technical information. When ordering parts, also give the eleven‐digit part number shown in
the following parts list.

WARNING
Use only genuine Fisher replacement parts. Components that are not supplied by Emerson Process Management should
not, under any circumstances, be used in any Fisher instrument. Use of components not supplied by Emerson Process
Management may void your warranty, might adversely affect the performance of the instrument, and could cause personal
injury or property damage.

Parts Kits
Description

Description
Part Number

Repair kit for positioner/transmitter (not for 3582NS)
 Kit contains keys 11, 16, 17, 33B, 34C, 73, and 104.
 This kit also contains keys 18C, 18E, and 18F
  for 3580 and 3581 positioners
   For standard temperature applications
R3580X00022
   For high temperature applications
R3580X00032
Repair kit w/nozzle and flapper for the 3582 Positioner
 Kit contains keys 11, 16, 17, 18, 19B, 19E,
  33B, 34C, 73, and 104.
   For standard temperature applications,
    not for 3582NS
R3582X00012
   For high temperature applications,
    not for 3582NS
R3582X00022
   For 3582NS, contains EPDM parts
R3582X00032

40

Part Number

Repair kit for 582i electro‐pneumatic converter
 Kit contains keys 3, 5, 6, 8, 20, and 23

R582X000012

Replacement kit for 83L Relay
 Kit contains relay, gaskets and mounting screws (key 32 in
  figure 21, keys 10, 13, and 15 in figure 23)
   For 3582 except 3582NS, std. const.
R3580XRS012
   For 3582 except 3582NS,
    Remote Vent, std. temp.
R3580XRR012
   For 3582 except 3582NS,
    hi‐temp. const.
R3580XRH012
   For 3582 except 3582NS,
    Remote Vent, hi‐temp.
R3580XRR022
   For 3582NS
R3580XNS012
   For 3583, std. const.
R3580XRS022
   For 3583, hi‐temp. const.
R3580XRH032

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February 2015

Parts List

Key

Positioner/Transmitter Common
Parts (figure 21)

Part Number

11* O‐Ring
 Std. const., Nitrile
  All except 3582NS
 Hi‐temp. const., Fluorocarbon
  3582A, 3582C & 3583C
  3582NS, EPDM Duro 80A
12
Lockwasher, pl steel (2 req'd)
13
Machine Screw, pl steel (2 req'd)
18

Note

Description

19

1F463606992
1N571406382
17B4784X012

Nozzle, SST
 3582
 3583
Flapper Sub‐Assembly

Parts in the following list are common to both 3582 valve positioners
and 3583 position transmitters, unless identified by specific type
number.
Note
Parts 19A through 19L are shown in figure 20.
Note
Part numbers are shown for recommended spares only. For part
numbers not shown, contact your Emerson Process Management sales
office.

19A
19B
19C
19D
19E
19F
19G

Adjustment Arm, pl steel
Flapper, SST
Machine Screw, pl steel (2 req'd)
Flapper Arm, aluminum
Machine Screw, pl steel (2 req'd)
Flapper Spring, SST
Zero Adjustment Screw, 18‐8 SST/PEEK

Key

Description

1

Case Assembly, Aluminum and PEEK

19H
19J
19K
19L

Hex Nut, pl steel
Lockwasher, pl steel
Arm Support, SST
Pivot Pin, 440C SST

20

Setting Adjustment Gear,
 All except 3582NS, nylon
 3582NS, 316 SST

2* Shaft Assembly, SST/steel
 For all except 3582NS and high vibration
  For travel up to 54 mm (2.125 inch)
  For travel up to 102 mm (4 inch)
 For 3582NS and high vibration
  For travel up to 54 mm (2.125 inch)
  For travel up to 102 mm (4 inch)
3

Part Number

15A9609X012
15A9609X022

Figure 20. Flapper Sub‐Assembly (Key 19)
15A9609X102
15A9609X112

Nozzle Adaptor, SST

4

Cam, SST
 Cam A (For all types except 3582NS)
 Cam B
  (For all except 3582NS, 3583, 3583C)
 Cam C
  (For all except 3582NS, 3583, 3583C)
4
Cam, SST/nitride (for 3582NS and high vibration)
 Cam A (for all types)
 Cam B (For all except 3583, 3583C)
 Cam C (For all except 3583, 3583C)
6
Cam Bolt, 416 SST
7* Bellows Assembly
 Standard brass
13B8783X012
 For sour gas
13B8783X022
8
Range Spring, pl steel (see table 9)
 0.2 to 1.0 bar (3 to 15 psi)
 0.4 to 2.0 bar (6 to 30 psi)
9
Spring Seat, aluminum
10
Machine Screw, pl steel

*Recommended spare parts

ASSEMBLE WITH LETTER
T ON THIS SURFACE

13A1451‐E

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Figure 21. Fisher 3582 and 3583 Positioners and Transmitters Assembly Drawing

A

B

C
C

A

B

SECTION B‐B

TYPICAL CAM
(KEY 4)

1

SECTION A‐A

NOTE:
1 APPLY A GOOD‐QUALITY THREAD
LOCKING COMPOUND TO THE THREAD
OF THE NOZZLE ADAPTOR (KEY 3).
41B8558‐E

42

SECTION C‐C

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February 2015

Figure 22. Nozzle Sub‐Assembly

Figure 23. 83L Relay
UNITS STAMPED WITH AN H
INDICATE HIGH TEMPERATURE
CONSTRUCTION

12A7441‐C
32B0255‐B

Key
Key

Description

Flapper Assembly Retainer, SST
Self Tapping Screw, pl steel (2 req'd)
Nameplate, aluminum
Self Tapping Screw, steel (2 req'd)
Extension Spring, SST
Machine Screw, pl steel (3 req'd)
Beam Sub‐Assembly
 For all except 3582NS and high vibration
 For 3582NS and high vibration
30
Bellows Pivot Pin, SST
32* 83L Relay (figure 23)
 See Parts Kits, Replacement Kit for 83L Relay
33
Cover Assembly
 Plastic
  For all types except 3582NS
 Aluminum
  For all types except 3583, 3583C
  For 3583 and 3583C

Description

Part Number

Part Number

21
23
25
26
27
28
29

19B3119X012
22B3645X022

36* Output Gauge, Triple Scale
 3582, 3582G, 3583
  0-30 psig/0-0.2 MPa/0-2 bar
  0-60 psig/0-0.4 MPa/0-4 bar

11B4040X012
11B4040X022

37* Supply Gauge, Dual Scale
 3582, 3582G, 3583
  0-30 psig/0-2 kg/cm2
  0-60 psig/0-4 kg/cm2

11B4040X042
11B4040X052

37* Supply Gauge, Triple Scale
 3582, 3582G, 3583
  0-30 psig/0-0.2 MPa/0-2 bar
  0-60 psig/0-0.4 MPa/0-4 bar

11B4040X012
11B4040X022

38
39
42

Extension Spring, SST
Shipping Stop (not shown)
Hex Nut, pl steel (2 req'd)

43
44
45

Spring Retainer Bracket, SST
Gear Mounting Plate, aluminum
Locking Nut, aluminum

Note
Bypass block assembly (key 34) and parts are listed later in this parts list.
Non‐bypass block assembly (also key 34) and parts are listed following
the bypass block assembly and parts.
Parts 35, 36 and 37 are shown in figures 24 and 25.

35

Pipe Plug, pl steel
 Req'd when gauges or test connections are not used:
  3 req'd for 3582 positioners
   Plated carbon steel
   316 SST


36* Output Gauge, Dual Scale
 3582, 3582G, 3583
  0-30 psig/0-2 kg/cm2
  0-60 psig/0-4 kg/cm2

*Recommended spare parts

11B4040X042
11B4040X052

Note
Parts 46 and 47 are shown in figures 24 and 25.

46* Instrument Gauge, Dual Scale
 0-30 psig/0-2 kg/cm2
  (3-15 psig/0.2-1.0 kg/cm2 ranges)
 0-60 psig/0-4 kg/cm2
  (6-30 psig/0.4-2.0 kg/cm2 ranges)

11B4040X042

46* Instrument Gauge, Triple Scale
 0-30 psig/0-0.2 MPa/0-2 bar
  (3-15 psig/20-100 kPa/0.2-1 bar ranges)
 0-60 psig/0-0.4 MPa/0‐4 bar
  (6-30 psig/40-200 kPa/0.4-2 bar ranges)

11B4040X012

11B4040X052

11B4040X022

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Key

Description

47

Test Connection
 3582C, 3582D (3 req'd)
 3583C (2 req'd)
 3582NS (3 req'd)
Locking Nut, aluminum
Locking Sleeve, aluminum

71
72

73* O‐Ring (2 req'd)
 Std. const., Nitrile
  All except 3582NS
 Hi‐temp. const., Fluorocarbon
  3582A, 3582C & 3583C
  3582NS, EPDM

Part Number

Key

Description

Adhesive, Loctitet 680t Retaining Compound
  (not furnished with positioner)
103* O‐Ring, nitrile, (not shown) used with integrally
 mounted 67CFR filter regulator

Part Number

96

1E591406992

10A0871X012
14A0592X012
17B4783X012

Note
Parts 104 and 105 shown in figures 24 and 25.

75
76
77
78
93
94
95

44

Machine Screw, pl steel
Beam Pivot Pin, SST
Extension Spring, SST
Speed Nut, SST
Anti‐Seize sealant (not furnished with positioner)
Lubricant, silicone sealant (not furnished with positioner)
Lubricant,
 All except 3582NS,
  Lithium grease (not furnished with positioner)
 3582NS,
  Molykotet 33 grease (not furnished with positioner)

104* Case Gasket,
 Std. const.
 Hi‐temp. const.
 3582NS, EPDM
105
Machine Screw, SST (2 req'd)
108
Shipping tag (not shown)

*Recommended spare parts

1U907804132
1U9078X0012
17B4782X012

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3582, 582i, and 3583

D200138X012

February 2015

For Units With Bypass (figure 24)

Key

Description

Part Number

34A Bypass Block, aluminum
Note
Bypass block assembly (key 34) and parts are listed below. Non‐bypass
block assembly (also key 34) and parts are listed following the bypass
block assembly and parts.

Key

Description

34

Block Assembly
 3582, 3582D
 3582NS

34B* Groove‐Pin, pl steel (not shown) (4 req'd)

1L942828992

34C* Bypass Gasket
 3582, 3582D, chloroprene
 3582NS, EPDM

1V606204132
17B4780X012

34D
34E
34F
34G
34K
34L

Bypass Handle, aluminum
Spring, pl steel
Washer, polyethylene
Screw, pl steel
Spring Seat, SST
Spring Retainer, pl steel

Figure 24. Fisher 3582 Block Assembly with Bypass

21B8560‐B
21B8562‐B

3582
NOTE:
KEY 34B AND 103 NOT SHOWN

*Recommended spare parts

TYPICAL SECTION AA

3582D AND 3582NS

SECTIONAL OF 3582
(WITH BYPASS)

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For Units Without Bypass (figure 25)
Key

34

Key

Description

Part Number

34A Bypass Block, aluminum
34C* Gasket
 Std. const., chloroprene
 Hi‐temp. const.
 3582NS, EPDM
34D Manifold
 3582, std. and hi‐temp. const.
 3583, std. and hi‐temp. const.
34G Cap Screw, pl steel

Description

Non‐Bypass Block Assembly
 Std. const.
  3582A, 3582C, 3582G
  3583, 3582C
 Hi‐temp. const.
  3582A, 3582C
  3583C
  3582NS

106 Pipe Plug, pl steel
 For 3583 & 3583C (2 req'd)

Figure 25. Fisher 3582 and 3583 Block Assemblies without Bypass

21B8565‐B

21B8564‐B

3582G

21B8567‐B

3582C AND 3582NS

3583

TYPICAL SECTION AA

SECTIONAL
WITHOUT BYPASS
21B8563‐B

3582A

21B8566‐B

NOTE:
PIPE PLUG (KEY 106) ON 3583 AND 3583C ONLY.

46

*Recommended spare parts

3583C

1V606204132
1V6062X0012
17B4780X012

Instruction Manual

3582, 582i, and 3583

D200138X012

Key

February 2015

Description

Part Number

582i (figure 26)
--1

I/P Module
Housing
 1/2‐14 NPT conduit connection
2
Cap, aluminum
--Screw, (not shown)
 Used to lock cap
3* O‐Ring, nitrile, used with integrally‐mounted
 67CFR filter regulator
Nozzle Restriction Assembly,
 Aluminum/Brass/SST
5
O‐Ring, Fluorosilicone
6* O‐Ring, Nitrile (2 req'd)
7
Tire Valve (not shown)
 (2 req'd w/tire valve option)

1E591406992

4

8*
9
10
11
12
13

1C8538X0162
1N908899012

O‐Ring, Nitrile
Machine Screw, 304 SST (2 req'd)
Wire Retaining Screw (2 req'd)
Machine Screw, SST (2 req'd)
Pipe Plug, steel (2 req'd w/pipe plug option)
Screw, pl steel, used with
 integrally‐mounted 67CFR
 filter/regulator (2 req'd)

A

Description

Part Number

14* Supply Gauge, Dual Scale
  0-30 psig/0-2 kg/cm2
11B4040X042
  0-60 psig/0-4 kg/cm2
11B4040X052
14* Supply Gauge, Triple Scale
  0-30 psig/0-0.2 MPa/0-2 bar
11B4040X012
  0-60 psig/0-0.4 MPa/0-4 bar
11B4040X022
15
Lubricant, Lithium grease (not furnished with positioner)
16
Anti‐seize sealant (not furnished with positioner)
18
Self‐Tapping Screw, SST (2 req'd)
19
Nameplate, SST,
 without 3rd party approvals
20* Case Gasket, cork
22* Output Gauge, Dual Scale
  0-30 psig/0-2 kg/cm2
11B4040X042
  0-60 psig/0-4 kg/cm2
11B4040X052
22* Output Gauge, Triple Scale
  0-30 psig/0-0.2 MPa/0-2 bar
11B4040X012
  0-60 psig/0-0.4 MPa/0-4 bar
11B4040X022

1H8762X0012
23* Filter
24
Vent Assembly
25
Pipe Plug (required when a 582i is used
 without an integrally‐mounted 67CFR
 filter/regulator)
  Steel
  SST

Figure 26. Fisher 582i Converter

SECTION A‐A

Key

11B5996X012

I/P MODULE

A

1

1

67CFR
FILTER REGULATOR
APPLY LUB/SEALANT
NOTE:
1 GAUGES MAY BE REPLACED BY
PIPE PLUGS (KEY 12) OR TIRE
VALVES (KEY 7).
31B5995‐G

*Recommended spare parts

47

Instruction Manual

3582, 582i, and 3583

D200138X012

February 2015

Mounting Parts

Key

Description

49

Washer, pl steel
 657
  w/o side‐mtd. h'wheel (continued)
   Size 70 (2 req'd)
    up to 76 mm (3 inch) travel
    78 to 102 mm (3.0625 to 4 inch) travel
   Sizes 80 & 87 (2 req'd)
   Size 100 (2 req'd)
 657‐4 (2 req'd)
  w/o side‐mtd. h'wheel
   Size 70
  w/side‐mtd. h'wheel
   Size 70
   Size 87
 667
  w/o side‐mtd. h'wheel
   Sizes 30, 34, & 40 (2 req'd)
   Size 45 thru 70, & 100 (2 req'd)
   Size 80 (2 req'd)
   Size 87
    up to 51 mm (2 inch) travel
    52 to 76 mm (2.0625 to 3 inch) travel
    78 to 102 mm (3.0625 to 4 inch) travel
 667
  w/side‐mtd. h'wheel
   Size 34 thru 60 (none req'd)
   Size 70 (2 req'd)
    up to 76 mm (3 inch) travel
    78 to 102 mm (3.0625 to 4 inch) travel
   Size 80 & 87 (2 req'd)
   Size 100 (2 req'd)
 657NS or 667NS
  Size 40 (2 req'd)
  Size 45 (2 req'd)
  Size 70 and 80 (none req'd)
 667‐4 (2 req'd)
  w/ or w/o side‐mtd h'wheel
   Size 70
   Size 87

50

Spacer, steel
 513
  Size 20 (none req'd)
  Size 32 (2 req'd)
 656 (2 req'd)
  Sizes 30, 40, & 60
 657
  w/o side‐mtd. h'wheel
   Size 30 thru 60 (none req'd)
   Size 70
    up to 51 mm (2 inch) travel (2 req'd)
    52 to 76 mm (2.0625 to 3 inch) travel (none req'd)
    78 to 102 mm (3.0625 to 4 inch) travel (2 req'd)
   Size 80
    up to 51 mm (2 inch) travel (none req'd)
    over 51 mm (2 inch) travel (2 req'd)
   Size 87 (2 req'd)
    up to 76 mm (3 inch) travel
    78 to 102 mm (3.0625 to 4 inch) travel
   Size 100 (2 req'd)
    up to 64 mm (2.5 inch) travel
    65 to 102 mm (2.5625 to 4 inch) travel

For Mounting 3582, 3582i, or 3583 Only
(figure 2)
Note
Contact your Emerson Process Management sales office for mounting FS
Numbers.
Part numbers are shown for recommended spares only. For part
numbers not shown, contact your Emerson Process Management sales
office.

Key

Description

48

Connector Arm, pl steel
 513
  Size 20
  Size 32
 656
  Size 30, 40, & 60
 657 or 667
  w/o side‐mtd. h'wheel
   Sizes 30 & 34
   Sizes 40 thru 100
  w/side‐mtd. h'wheel
   Size 34
   Sizes 40, 50, & 60
   Size 45 & 46
   Sizes 70 thru 100
 657NS or 667NS
  Size 40
  Size 45
  Size 70
  Size 80
 657‐4, 667‐4
 GX
  Size 225, 750, 1200

49

48

Washer, pl steel
 513
  Size 20
   6.4 mm (0.25 inch) stem (none req'd)
   7.9 mm (0.3125 inch) stem (1 req'd)
   9.5 mm (0.375 inch) stem (1 req'd)
  Size 32 (2 req'd)
 656
  Size 30, 40, & 60
   12.7 mm (0.5 inch) stem (1 req'd)
   19.1 mm (0.75 inch) stem (none req'd)
 657
  w/o side‐mtd. h'wheel
   Sizes 30, 34, & 40 (2 req'd)
   Size 45 thru 70, & 100 (2 req'd)
   Sizes 80 & 87 (2 req'd)
  w/side‐mtd. h'wheel
   Size 34 thru 60 (none req'd)

Instruction Manual

3582, 582i, and 3583

D200138X012

February 2015

Key

Description

Key

Description

50

Spacer, steel
 657 (continued)
  w/side‐mtd. h'wheel
   Sizes 34, 50, & 60 (2 req'd)
   Size 40 (none req'd)
   Size 45 & 46 (2 req'd)
   Sizes 70 & 87 (2 req'd)
   Size 80
    up to 51 mm (2 inch) travel (none req'd)
    over 51 mm (2 inch) travel (2 req'd)
   Size 100 (2 req'd)
    up to 64 mm (2.5 inch) travel
    65 to 102 mm (2.5625 to 4 inch) travel
 657‐4 (2 req'd)
  w/o side‐mtd. h'wheel
   Size 70
  w/side‐mtd. h'wheel
   Size 70 & 87
 667
  w/o side‐mtd. h'wheel
   Sizes 30 thru 60 (none req'd)
   Size 70
    up to 51 mm (2 inch) travel (none req'd)
    52 to 76 mm (2.0625 to 3 inch) travel (2 req'd)
    78 to 102 mm (3.0625 to 4 inch) travel (2 req'd)
   Size 80
    up to 51 mm (2 inch) travel (none req'd)
    over 51 mm (2 inch) travel (2 req'd)
   Size 87 (2 req'd)
    up to 76 mm (3 inch) travel
    78 to 102 mm (3.0625 to 4 inch) travel
   Size 100 (2 req'd)
    up to 64 mm (2.5 inch) travel
    65 to 102 mm (2.5625 to 4 inch) travel
   w/side‐mtd. h'wheel
   Size 34 (2 req'd)
   Sizes 40, 50, & 60 (none req'd)
   Size 45 & 46 (2 req'd)
   Sizes 70 & 87
   Size 80
    up to 51 mm (2 inch) travel (none req'd)
    over 51 mm (2 inch) travel (2 req'd)
  w/side‐mtd. h'wheel (cont'd)
   Size 100
    up to 64 mm (2.5 inch) travel
    65 to 102 mm (2.5625 to 4 inch) travel
 657NS or 667NS
  All except size 80 (3 req'd)
  Size 80 (none req'd)
 667‐4
  w/ or w/o side‐mtd h'wheel
   Sizes 70 & 87
Pipe Plug, 316 SST
Elbow, 3/8‐inch, brass (specify quantity)
Connector, 3/8‐inch brass (not shown)
 (specify quantity)

57

Hex Nut
 657NS or 667NS
  Size 80 (none req'd)
 All other types and sizes (2 req'd)
Lockwasher
 657NS or 667NS
  Size 80 (none req'd)
 All other types and sizes (2 req'd)
Pin Lock, SST
Travel Pin, SST
 657NS or 667NS
  Size 80
 All other types

52
54
55

56

58

59
60

61
62

Pin Holder, SST
Cap Nut, SST

63

Mounting Plate, steel
  For integrally mounted 67CFR
  For separately mounted 67CFR
Cap Screw, pl steel (5 req'd)
Cap Screw, hex head (2 req'd)
 GX
  Size 225, 750, 1200

64
65

70

Part Number

15A8823X012
1U909646332

Cap Screw, pl steel (2 req'd)
 513
  Size 20 & 32 (2 req'd)
 656
  Size 30, 40, & 60 (2 req'd)
 657
  w/o side‐mtd. h'wheel
   Sizes 30 thru 60
   Size 70
    Up to 51 mm (2 inch) travel
    52 to 76 mm (2.0625 to 3 inch) travel
    78 to 102 mm (3.0625 to 4 inch) travel
   Size 80
    up to 51 mm (2 inch) travel
    over 51 mm (2 inch) travel
 657
  w/o side‐mtd. h'wheel
   Size 87
    up to 76 mm (3 inch) travel
    78 to 102 mm (3.0625 to 4 inch) travel
   Size 100
    up to 64 mm (2.5 inch) travel
    65 to 102 mm (2.5625 to 4 inch) travel
  w/side‐mtd. h'wheel
   Sizes 34, 50, & 60
   Size 40
   Size 45 & 46
   Sizes 70 & 87
   Size 80
    up to 51 mm (2 inch) travel
    over 51 mm (2 inch) travel

Cap Screw, pl steel (2 req'd)
 657NS or 667NS
  Sizes 40, 45, & 70
 All other types

49

Instruction Manual

3582, 582i, and 3583

D200138X012

February 2015

Key
70



Description
Cap Screw, pl steel (2 req'd)
 657
  w/side‐mtd. h'wheel (continued)
   Size 100
    up to 64 mm (2.5 inch) travel
    65 to 102 mm (2.5625 to 4 inch) travel
 657‐4
  w/o side‐mtd. h'wheel
   Size 70
  w/side‐mtd. h'wheel
   Sizes 70 & 87
 667
  w/o side‐mtd. h'wheel
   Size 30 thru 60
   Size 70
    Up to 51 mm (2 inch) travel
    52 to 76 mm (2.0625 to 3 inch) travel
    78 to 102 mm (3.0625 to 4 inch) travel
   Size 80
    up to 51 mm (2 inch) travel
    over 51 mm (2 inch) travel
   Size 87
    Up to 76 mm (3 inch) travel
    78 to 102 mm (3.0625 to 4 inch) travel
   Size 100
    up to 64 mm (2.5 inch) travel
    65 to 102 mm (2.5625 to 4 inch) travel
  w/side‐mtd. h'wheel
   Size 34
   Size 40, 50, 60
   Size 45 & 46
   Size 70 & 87
   Size 80
    up to 51 mm (2 inch) travel
    over 51 mm (2 inch) travel
   Size 100
    up to 64 mm (2.5 inch) travel
    65 to 102 mm (2.5625 to 4 inch) travel
 657NS or 667NS
  Size 40, 45, & 70 (3 req'd)
  Size 80 (3 req'd)
 667‐4
  Sizes 70 & 87
 GX
  Size 225, 750, 1200
 For Competitor's Actuators
  0.375 to 0.75 inch stem

85

Cap Screw, hex head (4 req'd)
 GX
  Size 225, 750, 1200

86

Mounting Bracket (657NS and 667NS only)
 657NS
  Size 45
 667NS
  Size 45
 657NS or 667NS
  Size 40
  Size 70
  Size 80

50

Key

Description

97

Spacer, steel
 657 or 667
  w/ side‐mtd. h'wheel
   Size 70 & 87
    up to 51 mm (2 inch) travel (2 req'd)
    52 to 76 mm (2.0625 to 3 inch) travel (2 req'd)
    78 to 102 mm (3.0625 to 4 inch) travel (none req'd)
  w/ or w/o side‐mtd. h'wheel
   Size 80
    up to 51 mm (2 inch) travel (2 req'd)
    over 51 mm (2 inch) travel (none req'd)
 All other types and sizes (none req'd)
Stud, continuous thread, steel (2 req'd)
 657 or 667
  w/ side‐mtd. h'wheel
   Size 70 & 87
    up to 76 mm (3 inch) travel (2 req'd)
    78 to 102 mm (3.0625 to 4 inch) travel (none req'd)
  w/ or w/o side‐mtd. h'wheel
   Size 80
    up to 51 mm (2 inch) travel
    over 51 mm (2 inch) travel (none req'd)
 All other types and sizes (none req'd)

98

99

Hex Nut, pl steel
 657 or 667
  w/ side‐mtd. h'wheel
   Size 70 & 87
    up to 76 mm (3 inch) travel (2 req'd)
    78 to 102 mm (3.0625 to 4 inch) travel (none req'd)
  w/ or w/o side‐mtd. h'wheel
   Size 80
    up to 51 mm (2 inch) travel (2 req'd)
    over 51 mm (2 inch) travel (none req'd)
 All other types and sizes (none req'd)

102

Spacer, steel
 657
  w/o side‐mtd h'wheel
   Size 34 to 60 (none req'd)
   Size 70
    up to 51 mm (2 inch) travel (2 req'd)
    52 to 102 mm (2.0625 to 4 inch) travel (none req'd)
   Size 87
    up to 51 mm (2 inch) travel (2 req'd)
    52 to 102 mm (2.0625 to 4 inch) travel (none req'd)
 667
  w/o side‐mtd h'wheel
   Size 34 thru 70 & 87 (none r
 657 or 667
  w/ side‐mtd. h'wheel
   Size 34 thru 60 (none req'd)
   Size 70 & 87
    up to 76 mm (3 inch) travel (2 req'd)
   Size 70
    78 to 102 mm (3.0625 to 4 inch) travel (4 req'd)
   Size 87
    78 to 102 mm (3.0625 to 4 inch) travel, (2 req'd)
  w/ or w/o side‐mtd. h'wheel
   Size 80 (2 req'd)
   Size 100
    up to 64 mm (2.5 inch) travel (4 req'd)
    65 mm to 102 mm (2.5625 to 4 inch) travel (2 req'd)

Instruction Manual

3582, 582i, and 3583

D200138X012

February 2015

Key

Description

Key

Description

102

Spacer, steel (continued)
 657
  w/o side‐mtd h'wheel
   Size 34 to 60 (none req'd)
 657‐4 or 667‐4
  w/o side‐mtd h'wheel
   Size 70 (none req'd)
  w/ side‐mtd. h'wheel
   Size 70 (4 req'd)
   Size 87 (2 req'd)
 GX
  Size 1200
 All other types (none req'd)

50

Spacer, steel
 657
  Size 70 & 87
   up to 76 mm (3 inch) travel (none req'd)
   77 to 102 mm (3.0625 to 4 inch) travel (4 req'd)
 667
  Size 70 & 87
   up to 51 mm (2 inch) travel (none req'd)
   52 to 76 mm (2.0625 to 3 inch) travel (4 req'd)
   77 to 102 mm (3.0625 to 4 inch) travel (4 req'd)
 657
  Size 70 & 87
   up to 76 mm (3 inch) travel (none req'd)
 657 or 667
  Sizes 30 thru 60, & 80 (none req'd)
  Size 100 (4 req'd)
   up to 64 mm (2.5 inch) travel
   65 to 102 mm (2.5625 to 4 inch) travel

59

Pin Lock, SST, all sizes (2 req'd)

60

Travel Pin, SST, all sizes (2 req'd)

Note

61

Pin Holder, SST, all sizes (2 req'd)

Contact your Emerson Process Management sales office for mounting FS
Numbers.

62

Cap Nut, SST, all sizes (2 req'd)

63

Mounting Plate, steel, all sizes (2 req'd)
 For integrally mounted 67CFR
 For separately mounted 67CFR

64
65

Cap Screw, pl steel, all sizes (8 req'd)
Cap Screw, pl steel
 513
  Size 20 (none req'd)
  Size 32 (2 req'd)
 656 (none req'd)
 657
  w/o side‐mtd. h'wheel
   Sizes 30, 34, & 40 (2 req'd)
   Sizes 45 thru 60 (none req'd)
   Size 70 (2 req'd)
    up to 51 mm (2 inch) travel
    52 to 102 mm (2.0625 to 4 inch) travel
   Size 80
    up to 51 mm (2 inch) travel (none req')
    over 51 mm (2 inch) travel (2 req'd)
   Size 87
    up to 51 mm ( ‐inch) travel (2 req'd)
    52 to 102 mm (2.0625 to 4 inch) travel (none req'd)
   Size 100 (2 req'd)
    up to 64 mm (2.5 inch) travel
    65 to 102 mm (2.5625 to 4 inch) travel
  w/side‐mtd. h'wheel
   Sizes 34 thru 60 (none required)
   Size 70
    up to 76 mm (3 inch) travel (none req'd)
    78 to 102 mm (3.0625 to 4 inch) travel (2 req'd)
   Size 80
    up to 51 mm (2 inch) travel (none req'd)
    over 51 mm (2 inch) travel (2 req'd)

For Mounting 3582, 3582i, and 3583 on
657 or 667 Actuator without Side‐Mounted
Handwheel

Part numbers are shown for recommended spares only. For part
numbers not shown, contact your Emerson Process Management sales
office.
The following parts (key numbers 48 through 102) are used when
mounting both a 3582 positioner and a 3583 transmitter on a 657 or
667 actuator without a side‐mounted handwheel.

48

Connector Arm, pl steel (2 req'd)
 Sizes 30 & 34
 Sizes 40 thru 100

49

Washer, pl steel (4 req'd)
 657
  Size 70
   up to 51 mm (2 inch) travel
   52 mm to 76 mm (2.0625 to 3 inch) travel
   77 to 102 mm (3.0625 to 4 inch) travel
  Size 87
 667
  Size 70, all travels
  Size 87
   up to 76 mm (3 inch) travel
   77 to 102 mm (3.0625 to 4 inch) travel
 657 or 667
  Size 30 thru 40
  Size 45 thru 60
  Size 80
  Size 100
    up to 64 mm (25 inch) travel
    65 to 102 mm (2.5625 to 4 inch) travel

Part Number

1U909646332

51

Instruction Manual

3582, 582i, and 3583

D200138X012

February 2015

Key

Description

Key

Description

65

Cap Screw, pl steel
 657
  w/side‐mtd. h'wheel (continued)
   Size 87
    up to 76 mm (3 inch) travel (none req'd)
    78 to 102 mm (3.0625 to 4 inch) travel
     (2 req'd)
   Size 100 (2 req'd)
    up to 64 mm (2.5 inch) travel
    65 to 102 mm (2.5625 to 4 inch) travel
 657‐4 (2 req'd)
  w/o side‐mtd. h'wheel
   Size 70
  w/ side‐mtd. h'wheel
   Size 70
   Size 87
 667
  w/o side‐mtd. h'wheel
   Sizes 30, 34, & 40 (2 req'd)
   Sizes 45 thru 70, & 87 (none req'd)
   Size 80
    up to 51 mm (2 inch) travel (none req'd)
    over 51 mm (2 inch) travel (2 req'd)
   Size 100 (2 req'd)
    Up to 64 mm (2.5 inch) travel
    65 to 102 mm (2.5625 to 4 inch) travel
  w/side‐mtd. h'wheel
   Sizes 34 thru 60 (none required)
   Size 70
    up to 76 mm (3 inch) travel (none req'd)
    78 to 102 mm (3.0625 to 4 inch) travel (2 req'd)
 667
  w/side‐mtd. h'wheel
   Size 80
    up to 51 mm (2 inch) travel (none req'd)
    over 51 mm (2 inch) travel (2 req'd)
   Size 87
    up to 76 mm (3 inch) travel (none req'd)
    78 to 102 mm (3.0625 to 4 inch) travel
     (2 req'd)
   Size 100 (2 req'd)
    up to 64 mm (2.5 inch) travel
    65 to 102 mm (2.5625 to 4 inch) travel
 657NS or 667NS
  Size 40, 45, 70, & 80 (none req'd)
 667‐4
  w/o side‐mtd. h'wheel
   Size 70 & 87 (none req'd)
 667‐4 (cont'd)
  w/ side‐mtd. h'wheel
   Size 70 (2 req'd)
   Size 87 (2 req'd)

70

Cap Screw, pl steel (4 req'd) (continued)
 657 or 667
  Sizes 30 thru 60, & 80
  Size 100
   up to 64 mm (25 inch) travel
   65 to 102 mm (2.5625 to 4 inch) travel

71

Stud, continuous thread, steel (not shown) (2 req'd)
 657
  Size 70
  Size 87
   Up to 51 mm (2 inch) travel
   52 to 102 mm (2.0625 to 4 inch) travel
 667
  Size 70
   Up to 76 mm (3 inch) travel
   77 to 102 mm (3.0625 to 4 inch) travel
  Size 87
   Up to 76 mm (3 inch) travel
   77 to 102 mm (3.0625 to 4 inch) travel
 657 or 667
  Sizes 30, 34, & 40
  Sizes 45 thru 60
  Size 80
  Size 100 (none req'd)

72

Hex Nut, pl steel (not shown) (4 req'd)
 657 or 667
  Sizes 30, 34, & 40
  Sizes 45 thru 60
  Size 70
  Size 80 & 87
  Size 100 (none req'd)

102

Spacer
 657
  Size 70
   Up to 51 mm (2 inch) travel (4 req'd)
   52 to 102 mm (2.0625 to 4 inch) travel (none req'd)
  Size 87
   Up to 51 mm (2 inch) travel
   52 to 102 mm (2.0625 to 4 inch) travel (none req'd)
  Size 70
   Up to 51 mm (2 inch) travel (4 req'd)
 667
  Size 70
   Up to 76 mm (3 inch) travel (none req'd)
   77 to 102 mm (3.0625 to 4 inch) travel (4 req'd)
  Size 87
   Up to 76 mm (3 inch) travel (none req'd)
   77 to 102 mm (3.0625 to 4 inch) travel (4 req'd)
 657 or 667
  Sizes 30 thru 60 (none req'd)
  Size 80 (4 req'd)
  Size 100
   up to 64 mm (2.5 inch) travel (8 req'd)
   65 to 102 mm (2.5625 to 4 inch) travel (4 req'd)

70

52

Cap Screw, pl steel (4 req'd)
 657
  Size 70 & 87
   Up to 76 mm (3 inch) travel
   78 to 102 mm (3.0625 to 4 inch) travel
 667
  Size 70 & 87
   Up to 51 mm (2 inch) travel
   52 to 76 mm (2.0625 to 3 inch) travel
   77 to 102 mm (3.0625 to 4 inch) travel

Instruction Manual

3582, 582i, and 3583

D200138X012

For Mounting 3582, 3582i, and 3583 on
657 or 667 Actuator with Side‐Mounted
Handwheel

February 2015

Key

Description

60
61

Travel Pin, SST (2 req'd)
Pin Holder, SST (2 req'd)

62
63

Cap Nut, SST (2 req'd)
Mounting Plate, steel (2 req'd)
 For integrally mounted 67CFR
 For separately mounted 67CFR

The following parts (key numbers 48 through 87) are used when
mounting both a 3582 positioner and a 3583 transmitter on a 657 or
667 Size 45 actuator with side‐mounted handwheel.

64
70
79
80
81

Cap Screw, pl steel (8 req'd)
Cap Screw, pl steel (2 req'd)
Mounting Plate, steel
Hex Nut, pl steel, for 667 only (2 req'd)
Lockwasher, pl steel
 657 (2 req'd)
 667 (4 req'd)

48
50
54
55
59

82
83
84
85
86
87

Machine Screw, pl steel (2 req'd)
Elastic Stop Nut, pl steel (not shown) (2 req'd)
Connecting Linkage, pl steel
Cap Screw, pl steel, for 667 only (5 req'd)
Spacer, pl steel for 667 only (5 req'd)
Cap Screw, pl steel for 667 only (2 req'd)

Key

Description

Note
Part numbers are shown for recommended spares only. For part
numbers not shown, contact your Emerson Process Management sales
office.

Connector Arm, pl steel
Spacer, steel (2 req'd)
Elbow, 3/8‐inch, brass
Connector, 3/8‐inch brass (not shown)
Pin Lock, SST (2 req'd)

Part Number

10A2167X012

Figure 27. Typical Application of Transmitter and Positioner

41B8568‐C

53

Instruction Manual

3582, 582i, and 3583

D200138X012

February 2015

Diagnostic Connections (figure 8)
FlowScannert valve diagnostics system hook‐up.
Includes connector body and body protector. If
ordered for units with gauges, a stem is also included.

Note
Part numbers are shown for recommended spares only. For part
numbers not shown, contact your Emerson Process Management sales
office.

Description
For 3582 pneumatic valve positioners
 For units w/gauges
  SST fittings
  brass fittings
 For units w/o gauges
  SST fittings
  brass fittings
For 3582i electro‐pneumatic valve positioners
 For units w/gauges
  SST fittings
  brass fittings
 For units w/o gauges
  SST fittings
  brass fittings

Loop Schematics
This section includes loop schematics required for wiring of intrinsically safe installations. If you have any questions,
contact your Emerson Process Management sales office.
Figure 28. CSA Loop Schematic for Fisher 582i Converter (Installation drawing GE28591)

NOTES:
1. BARRIERS MUST BE CSA CERTIFIED WITH ENTITY PARAMETERS
 AND ARE TO BE INSTALLED IN ACCORDANCE WITH THE
 MANUFACTURER'S I.S. INSTALLATION INSTRUCTIONS.
2. EQUIPMENT SHALL BE INSTALLED IN ACCORDANCE WITH THE
 CANADIAN ELECTRICAL CODE, PART I.
3. FOR ENTITY INSTALLATION (I.S. AND N.I.): Vmax > Voc, Imax > Isc
 Ci + Ccable < Ca, Li + Lcable < La
GE28591 Rev A

54

Instruction Manual
D200138X012

3582, 582i, and 3583
February 2015

Figure 29. FM Loop Schematic for Fisher 582i Converter (Installation drawing GE28590)

WARNING
FOR INTRINSICALLY SAFE APPLICATIONS: THE APPARATUS ENCLOSURE CONTAINS
ALUMINUM AND IS CONSIDERED TO CONSTITUTE A POTENTIAL RISK OF IGNTION BY
IMPACT AND FRICTION. AVOID IMPACT AND FRICTION DURING INSTALLATION AND USE TO
PREVENT RISK OF IGNTION.

NOTES:
1. THE INSTALLATION MUST BE IN ACCORDANCE WITH THE NATIONAL ELECTRIC CODE (NEC),
 NFPA 70, ARTICLE 504 AND ANSI/ISA RP12.6 OR ARTICLE 505.
2. THE CLASS 1, DIV 2 APPLICATIONS MUST BE INSTALLED AS SPECIFIED IN NEC ARTICLE 501‐4(B).
 EQUIPMENT AND FIELD WIRING IS NON‐INCENDIVE WHEN CONNECTED TO APPROVED
 BARRIERS WITH ENTITY PARAMETERS.
3. LOOPS MUST BE CONNECTED ACCORDING TO THE BARRIER  MANUFACTURER'S INSTRUCTIONS.
4. MAXIMUM SAFE AREA VOLTAGE SHOULD NOT EXCEED 250 Vrms.
5. RESISTANCE BETWEEN BARRIER GROUND AND EARTH GROUND MUST BE LESS THAN ONE OHM.
6. NORMAL OPERATING CONDITIONS 30 VDC 20 mADC.
7. FOR ENTITY INSTALLATION (I.S. AND N.I.):
    Vmax > Voc, or Vt
Ci + Ccable < Ca
    Imax > Isc, or It
Li + Lcable < La
    Pi > Po, or Pt
GE28590 Rev B

55

3582, 582i, and 3583
February 2015

Instruction Manual
D200138X012

Neither Emerson, Emerson Process Management, nor any of their affiliated entities assumes responsibility for the selection, use or maintenance
of any product. Responsibility for proper selection, use, and maintenance of any product remains solely with the purchaser and end user.
Fisher and FlowScanner are marks owned by one of the companies in the Emerson Process Management business unit of Emerson Electric Co. Emerson
Process Management, Emerson, and the Emerson logo are trademarks and service marks of Emerson Electric Co. All other marks are the property of their
respective owners.
The contents of this publication are presented for informational purposes only, and while every effort has been made to ensure their accuracy, they are not
to be construed as warranties or guarantees, express or implied, regarding the products or services described herein or their use or applicability. All sales are
governed by our terms and conditions, which are available upon request. We reserve the right to modify or improve the designs or specifications of such
products at any time without notice.
Emerson Process Management
Marshalltown, Iowa 50158 USA
Sorocaba, 18087 Brazil
Chatham, Kent ME4 4QZ UK
Dubai, United Arab Emirates
Singapore 128461 Singapore

www.Fisher.com
56
E 1989, 2015 Fisher Controls International LLC. All rights reserved.



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