................................. -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.
Dear experts, I would like to ask you for advice. Is this idea correct? Please give me some advice. Thank you very much! ! I received a mini2440 from Taobao some time ago. I will take some time to lea...
When I try to make, it prompts an RT error. Could you please help me see if it is because I am missing a header file? I only #include "msp430x14x.h" this header file. If it is missing, which header fi...
I want to find a communication routine between 430 hardware I2C and PCF8563. I am currently using 169 chip, but I still can't debug it. I tried interrupt write and query write, but there are some prob...
1) When running normally at 19MHz, the current is 19mA (including on-chip peripherals GPIOA-E, SPI2, TIM2-5, ADC1), which is far from the theoretical value of 0.5mA/Hz.2) Does 0.5mA/Hz only refer to t...
I am a novice in the IAR5.4 environment for stm32. I would like to ask you experts for help. There are many strings in my program. I found that the compiler puts all the strings in Readonly Data Memor...
Abstract: In order to generate a stable excitation signal, the design of a digital frequency synthesizer is implemented on FPGA using Verilog hardware language. The design includes accumulator, wav...[Details]
1. Principle of displacement angle sensor
The angle sensor is used to detect angles. It has a hole in its body that fits the LEGO axle. When connected to the RCX, the angle sensor counts once ...[Details]
Aromatic gases are widely present in food, medicine, cosmetics and various daily chemical products, such as snacks, liquor, spices, Chinese herbal medicines, plasters, perfumes, soaps, shampoos, et...[Details]
1. System Structure
This system is a simulation system of indoor air-conditioning temperature/humidity control system. The data acquisition and control center collects temperature/humidity...[Details]
Smart lighting control systems provide high controllability for various buildings and further enhance the level of green energy. They are the core products of energy conservation and digital techn...[Details]
With the continuous consumption of earth's energy and the scarcity of resources, the harm of greenhouse effect to human beings, and the serious pollution of the atmosphere to the earth, the intern...[Details]
The traditional display screen using 51 single-chip microcomputer to control LED dot matrix has relatively simple functions. If it is to achieve diversified functions, it often takes a lot of time ...[Details]
In recent years, with the rapid development of the information industry, dot matrix LED display screens have been widely used in various advertising and information display systems such as the fina...[Details]
This controller uses PIC16C54 single-chip microcomputer as the controller, and it is very easy to use: just connect a telephone line to the loudspeaker through the controller, and you can rem...[Details]
FPGAs are used in 81% of electronic systems, including many commercial and defense products, and most FPGAs use BGA packaging. The BGA packaging is characterized by small solder balls and small sol...[Details]
Today, the value of electronic components in cars accounts for 15-20% of the total vehicle. In the future, this proportion may be as high as 30-40% as more safety electronics, fuel consumption and ...[Details]
Abstract: Aiming at the needs of coal-rock acoustic emission signal monitoring system, a data acquisition circuit with 24-bit resolution and 16-channel synchronous data acquisition function is desi...[Details]
Corelink Semiconductor has launched the CL1100-based 5-7W E27 LED lighting driver system solution DB2. This driver module meets the requirements of small size (L×W×H=5.1cm×2.1cm×1.8cm), low standby...[Details]
1 Introduction
Ultrasound refers to elastic vibration with a frequency higher than the audible frequency limit (i.e., in the frequency band above 20 kHz). The propagation process of this vib...[Details]
Embedded System
京公网安备 11010802033920号
EEWORLD
