................................. -10 °C to +55 °C
Resistance to Solder Heat............. ±5 %
Mechanical Travel ........ Length ±0.5 mm
Operating Force .............................60 gf
Stop Strength ......................... 5 kgf min.
Shaft Axial Force .................. 10 kgf min.
Shaft Wobble .. 2(2 x L/25) mm p-p max.
Soldering Condition
Manual ...........300 °C ±5 °C for 3 sec.
Wave ..............260 °C ±5 °C for 5 sec.
Wash .....................Not recommended
Mechanical Characteristics
Environmental Characteristics
Ro VE LEA
HS RS D
C ION FRE
OM S E
PL AR
IA E
NT
*
Electrical Characteristics
45 mm Length of Travel
Lever End Syle “A”
77.5
MAX.
(3.052)
65.0 ± 0.2
(2.559 ± .008)
13.0
MAX.
(.512)
Lever
Length
15.0
(.591)
20.0
(.787)
M3 2 PLCS.
45.0 ± 0.5
(1.772 ± .020)
6.0 ± 0.2
(.157 ± .008)
4.0 +0/-0.1
(.157 +0/-.004)
10.0 ± 0.3
(.394 ± .012)
R
0.3
(.012)
1.2 ± .05
(.047 ± .002)
L ± 0.5
(L ± .020)
38.7 ± 0.5
(1.524 ± .020)
HOLES
2 1 2' 1'
2.0
(.079)
6 PLCS.
5.0
6.8
(.197)
(.268)
5.0
(.197)
5.0
(.197)
12.5
(.492)
1.8
3'
(.071)
2 PLCS.
8.0
(.315)
20.0
(.787)
30.0
(1.181)
3
2.3 ± 0.2
(.091 ± .008)
3.7 ± 0.2
(.146 ± .008)
5.4 ± 0.2
(.213 ± .008)
0.5
(.020)
0.6
(.024)
Standard Resistance Table
Resistance
(Ohms)
1,000
2,000
5,000
10,000
20,000
50,000
100,000
200,000
500,000
1,000,000
Resistance
Code
102
202
502
103
203
503
104
204
504
105
How To Order
PTS 45 - 0 2 L - 103 B2
*RoHS Directive 2002/95/EC Jan. 27, 2003 including annex and RoHS Recast 2011/65/EU June 8, 2011.
Specifications are subject to change without notice.
The device characteristics and parameters in this data sheet can and do vary in different applications and actual
device performance may vary over time.
Users should verify actual device performance in their specific applications.
Model Number
Designator
PTS = High Grade Slide
Potentiometer
Length of Travel
45 = 45 mm
60 = 60 mm
01 = 100 mm
Lever End Style/Length
0 = Lever End Style “A” / 15 mm
1 = Lever End Style “T” / 8.2 mm
2 = Lever End Style “A” / 20 mm
No. of Gangs
1 = Single Gang
2 = Dual Gang
Mounting Type
L = Solder Lugs
P = PC Pins
Resistance Code
(See Standard Resistance Table)
Resistance Taper (See Taper Charts)
Taper Series followed by Curve Number
Applications
n
Professional mixing consoles
n
Professional outboard gear
PTS Series High Grade Slide Potentiometer
Product Dimensions
Tapers
A Series Tapers
100
60 mm Length of Travel
Lever End Style “A”
92.5
MAX.
(3.642)
80.0
±
0.2
(3.150
±
.008)
90
Output Voltage across Terminals 1-2
X 100 (%)
Input Voltage across Terminals 1-3
13.0
MAX.
(.512)
Lever
Length
15.0
(.591)
20.0
(.787)
80
70
60
50
40
30
20
10
0
10
20
30
(20
(3
0A
);A
6
M3 2 PLCS.
60.0
±
0.5
(2.362
±
.020)
6.0
±
0.2
(.157
±
.008)
4.0 +0/-0.1
(.157 +0/-.004)
10.0
±
0.3
(.394
±
.012)
DIMENSIONS:
MM
(INCHES)
1.2
±
.05
(.047
±
.002)
(25
3
A);
A5
A
A);
4
A);A
(15
A2
(10A);
(05
1
A);A
0.3
R
(.012)
40
50
60
70
80
90
100
Terminal 1
Rotational Travel (%)
Terminal 3
B Series Tapers
100
(4B
Output Voltage across Terminals 1-2
X 100 (%)
Input Voltage across Terminals 1-3
);B
38.7
±
0.5
(1.524
±
.020)
(3B
70
60
50
40
30
20
10
0
10
20
30
40
50
60
2.0
2 1 2' 1'
HOLES
(.079)
6 PLCS.
5.0
(.197)
5.0
(.197)
5.0
(.197)
20.0
(.787)
1.8
(.071)
2 PLCS.
6.8
(.268)
8.0
(.315)
27.5
(1.083)
37.5
(1.476)
3'
3
2.3
±
0.2
(.091
±
.008)
3.7
±
0.2
(.146
±
.008)
5.4
±
0.2
2
(.213
±
.008)
R1 1
3
0.5
(.020)
0.6
(.024)
70
(1
B
);B
1
80
3
(2
L
±
0.5
(L
±
.020)
);B5
(5B
);B
4
B)
;B
2
90
80
90
100
Terminal 1
Rotational Travel (%)
Terminal 3
Schematics
Output Voltage across Terminals 1-2
X 100 (%)
Input Voltage across Terminals 1-3
C Series Tapers
100
Single Gang
2
R1 1
3
Dual Gang
2
R1 1
R2 1'
2'
3
3'
90
80
70
60
50
40
30
20
10
(25
(3
0C
);C
6
C)
;C5
2
R1 1
R2 1'
3
3'
(1
(20
C
(15
0C
)
);C
4
(05
;C
2
C);C
1
C);
C3
0
10
20
30
40
50
60
70
80
90
100
Terminal 1
Rotational Travel (%)
Terminal 3
Specifications are subject to change without notice.
2'
The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time.
Users should verify actual device performance in their specific applications.
PTS Series High Grade Slide Potentiometer
Product Dimensions
100 mm Length of Travel
Lever End Style “A”
132.5
MAX.
(5.217)
120.0
±
0.2
(4.724
±
.008)
13.0
MAX.
(.512)
M3 X 0.5 2 PLCS.
Lever
Length
15.0
(.591)
6.0
±
0.2
(.157
±
.008)
4.0 +0/-0.1
(.157 +0/-.004)
10.0
±
0.3
(.394
±
.012)
100.0 ± 1.0
(3.937 ± .039)
20.0
(.787)
1.2
±
.05
(.047
±
.002)
0.3
R
(.012)
L
±
0.5
(L
±
.020)
38.7
±
0.5
(1.524
±
.020)
HOLES
2 1 2' 1'
2.0
(.079)
6 PLCS.
5.0
(.197)
5.0
(.197)
5.0
(.197)
40.0
(1.575)
1.8
(.071)
2 PLCS.
6.8
(.268)
8.0
(.315)
47.5
(1.870)
57.5
(2.264)
3'
3
2.3
±
0.2
(.091
±
.008)
3.7
±
0.2
(.146
±
.008)
5.4
±
0.2
(.213
±
.008)
0.5
(.020)
0.5
(.020)
DIMENSIONS:
MM
(INCHES)
Specifications are subject to change without notice.
The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time.
Users should verify actual device performance in their specific applications.
PTS Series High Grade Slide Potentiometer
Product Dimensions
45 mm Length of Travel
Lever End Style “T”
77.5
MAX.
(3.052)
65.0
±
0.2
(2.559
±
.008)
13.0
MAX.
(.512)
M3 X 0.5 2 PLCS.
45.0 ± 0.5
(1.772 ± .020)
2.0
(.079)
4.0
(.157)
18.5 +0/-0.1
(.728 +0/-.004)
14.5
(.571)
8.0
(.315)
8.2 ± 0.5
(.323 ± .020)
1.5
±
.05
(.059
±
.002)
1.2
±
.05
(.047
±
.002)
2.0
(.079)
DIA. 2 PLCS.
38.7
±
0.5
(1.524
±
.020)
HOLES
2 1 2' 1'
2.0
(.079)
6 PLCS.
5.0
6.8
(.197)
(.268)
5.0
(.197)
5.0
(.197)
12.5
(.492)
1.8
3'
(.071)
2 PLCS.
8.0
(.315)
20.0
(.787)
30.0
(1.181)
3
2.3
±
0.2
(.091
±
.008)
3.7
±
0.2
(.146
±
.008)
5.4
±
0.2
(.213
±
.008)
0.5
(.020)
0.6
(.024)
DIMENSIONS:
MM
(INCHES)
Specifications are subject to change without notice.
The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time.
Users should verify actual device performance in their specific applications.
PTS Series High Grade Slide Potentiometer
Product Dimensions
60 mm Length of Travel
Lever End Style “T”
92.5
MAX.
(3.642)
80.0
±
0.2
(3.150
±
.008)
13.0
MAX.
(.512)
M3 X 0.5 2 PLCS.
60.0
±
0.5
(2.362
±
.020)
18.5 +0/-0.1
(.728 +0/-.004)
2.0
(.079)
4.0
(.157)
14.5
(.571)
8.0
(.315)
8.2 ± 0.5
(.323 ± .020)
1.5
±
.05
(.059
±
.002)
1.2
±
.05
(.047
±
.002)
2.0
(.079)
DIA. 2 PLCS.
38.7
±
0.5
(1.524
±
.020)
HOLES
2.0
2 1 2' 1'
(.079)
6 PLCS.
5.0
(.197)
5.0
(.197)
5.0
(.197)
20.0
(.787)
1.8
(.071)
2 PLCS.
6.8
(.268)
8.0
(.315)
27.5
(1.083)
37.5
(1.476)
3'
3
2.3
±
0.2
(.091
±
.008)
3.7
±
0.2
(.146
±
.008)
5.4
±
0.2
(.213
±
.008)
0.5
(.020)
0.5
(.020)
DIMENSIONS:
MM
(INCHES)
Specifications are subject to change without notice.
The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time.
Users should verify actual device performance in their specific applications.
In 1986, German electrical company Bosch developed the CAN communication protocol for automobiles. Later, in order to make the parts produced by different manufacturers work in harmony on the same car...
[i=s]This post was last edited by paulhyde on 2014-9-15 03:32[/i] I found a few electromagnetic induction circuits to support everyone. If you find any, you will upload them immediately....
In the vxWorks system, I want to use a timer to implement a timer with a range of 200us to 1ms, that is, the time interval of the timer can be set from 200us to 1ms. Using the auxiliary clock, there a...
Do I need to control FLASH through register commands? How are the registers of oneNand flah distributed? For example, if base_address is 0x00, the address register is 0x00+4. In addition, I looked at ...
Thanks for your enthusiastic help. I have modified the program according to your advice last time. Please help me again:) The circuit of the microcontroller controlling the relay is omitted. The progr...
introduction
Since the beginning of the 21st century, the world of information has changed rapidly. Maybe a high-tech product will be released today and a better similar product will be releas...[Details]
No matter which processor you are learning, the first thing you need to understand is the registers and working mode of the processor.
ARM has 37 registers, including 31 general registers and ...[Details]
We know that microcontroller development tools generally include real-time online emulators and programmers. Among them, online emulators are very good tools, but they are also more expensive...[Details]
Instrument stepper motor
The stepper motor is an open-loop control element that converts electrical pulse signals into angular displacement or linear displacement. In the case of non...[Details]
AD8205 is
a single-supply high-performance differential
amplifier
launched by
Analog
Devices of the United States
. The typical single-supply voltage is 5V, and its common-mode volta...[Details]
Capacitors
are basic components in various electronic devices and are widely used for bypassing, coupling,
filtering
, tuning, etc. in electronic circuits. However, to use capacitors,...[Details]
Analysis of the three core aspects of digital TV transmission standards
According to the differences in regionality, transmission method and modulation method, the transmission method needs to...[Details]
introduction
LEDs continue to gain popularity in automotive applications, thanks to their long lifespan and the flexibility they offer for body styling and interior design. Some may be surpris...[Details]
introduction
When it comes to the production of mobile phone lithium-ion batteries, the first thing that comes to mind is Japan's industrialized mechanical assembly line, NOKIO, MOTOLROLA's st...[Details]
1 Load Regulation
Changes in power supply load will cause changes in power supply output. When the load increases, the output decreases, and vice versa, when the load decreases, the output inc...[Details]
Don’t just look at the power when choosing a power supply
We know that a power supply with a low rated power can hardly meet the power supply needs of the system, which may cause frequent free...[Details]
1. Introduction
Modern modular machine tools are equipped with a large number of electronic devices to meet the requirements of processing accuracy, processing speed, etc. If the conventional ...[Details]
Microcontrollers are something that many people want to learn about and are concerned about. In most websites, the hardware requirements are generally as follows:
1. You need a computer, prefer...[Details]
1. Introduction
Stepper motor is a basic component that converts electrical energy into kinetic energy. It has been widely used in a variety of electromechanical equipment, such as various machine...[Details]
In recent years, the application of single-chip microcomputer systems in the field of industrial measurement and control has become more and more extensive. However, for industrial sites with harsh...[Details]
Integrated technical exchanges
京公网安备 11010802033920号
EEWORLD
