A new generation of Hall sensors from Infineon Technologies AG (FSE: IFX / OTCQX: IFNNY) ensures compliance with strict environmental standards in automotive, industrial and consumer electronics applications. At the same time, they also meet the requirements of cost-effective and compact design. The new high-integration TLx496x family of Hall sensors has precise switching points, stable operating conditions and low power consumption. This new range includes latches and switches.
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The TLx496x Hall sensor consumes less than 1.6 mA and consumes about 50% less power than competing products. Among them, the 5-V Hall sensor consumes only 1.4 mA. The highly robust electrostatic protection features of these sensors and the precise and stable magnetic switching points make them ideal for systems that require energy efficiency, robustness and precision. The TLx496x Hall sensor can help reduce system cost. Two to four passive components equipped with previous generations can now be eliminated, which reduces the space they occupy on the board.
All TLx496x Hall sensors, including switch and latch, are equipped with integrated Hall components, voltage regulators, choppers, oscillators and output drivers. The regulator supplies power to the Hall element and the active circuit. The chopper ensures that the temperature remains stable and minimizes the effects of process fluctuations. There are three reasons for process fluctuations: First, due to different manufacturing processes, the magnetic switch points of each Hall sensor are slightly different; secondly, as the temperature rises, the permanent magnet brushless DC motor will demagnetize; finally, the Hall output voltage Subject to pressure and temperature. The TLx496x Hall sensor compensates for all of these effects, so they can perform precise switching over the entire specified temperature range and lifetime.
Upgrade for 5-V systems in automotive applications: TLE496x
The TLE496x-xM series is suitable for automotive applications with an operating voltage range of 3.0 V to 5.5 V. These applications typically do not experience overcurrent. Target applications include all systems that require precision Hall switches or Hall latches for the -40 °C to 170 °C temperature range. The TLE496x-xM is commonly used in many control elements used in power windows and sunroofs, trunk locks, wipers, seat belts, camshafts, shift levers and brushless DC motors. The magnetic and switching points of the Latched Hall Sensor (TLE4963-1M/2M) make it ideal for applications with accurate index calculations (for pole rotors and recording rotor positions) and brushless DC motors. The Hall switch (TLE4965-5M) is ideal for recording switch and lever positions as well as for detecting their switching status.
Upgrade for 5-V systems in industrial applications: TLI496x
The TLl496x-xM series is functionally identical to the TLE496x-xM series, but with a specified temperature range of -40 °C to 125 °C and is JESD47 compliant. The TLl496x-xM is commonly used in brushless DC motors for electric vehicles, fans for computers, electric drives for building automation facilities (such as blinds and garage doors), and inspection of large household appliances switches and building security/burglar protection.
Upgraded products for cost-sensitive consumer electronics applications: TLV496x
The TLV496x-xTA/B series is specifically designed for cost-effective and contactless positioning. Typical applications include brushless DC motors for large household appliances such as dishwashers and washing machines, air conditioning compressors, computer fans and blinds, garden tools and building security/theft (such as door and window contacts, doors and blinds). Despite the pressure to reduce costs, these applications require very accurate Hall latch or Hall switches (unipolar/bipolar) for the -40 °C to 125 °C temperature range. The TLV496x-xTA/B Series Hall sensors consume only 1.6 mA and feature ESD protection up to 4 kVH HBM (Human Discharge Mode). The output has overcurrent protection and high temperature auto-shutdown.
Specifications
1.Steel Processed Reel
2.In accordance with GB4004-83, JB/T7600.3-94 and DlN46395 standards
- choice of flange with or without ribs
- extra stiffeners in the drum
- painting
- hot galvanizing
- stainless steel version
- dynamic balancing
|
Serial Number |
Specification Model
|
Lateral Plate Diameter D1
|
Major Diameter D2
|
Axle Hole Diameter D4
|
Carrying Hole Diameter D5
|
Center Distance E of Axle Hole and Carrying Hole
|
External Width L1
|
Internal Width L2
|
|
1
|
315
|
315
|
120
|
33.5
|
16
|
86
|
238
|
200
|
|
2
|
400
|
400
|
160/200
|
56
|
16
|
71-112
|
300
|
250
|
|
3
|
440
|
440
|
220
|
80
|
16-28
|
180
|
316
|
292
|
|
4
|
450
|
450
|
180/224
|
56
|
16-28
|
71-112
|
335
|
280
|
|
5
|
500
|
500
|
250
|
56
|
16-28
|
142
|
335
|
315
|
|
6
|
560
|
560
|
224/280
|
56
|
16-28
|
71-112
|
425
|
355
|
|
7
|
600
|
600
|
250/300
|
56/60
|
16-28
|
71-112
|
340/3
85 |
300/3
50 |
|
8
|
630
|
630
|
335
|
80
|
16-32
|
140
|
495
|
450
|
|
9
|
710
|
710
|
355/400
|
80
|
28-40
|
71-112
|
530
|
450
|
|
10
|
760
|
760
|
355
|
32.5/54
|
21-35
|
64-115
95-126.5 |
345
315 |
295
280 |
|
11
|
762
|
762
|
355/400
|
60
|
25-40
|
135
|
360
|
280
|
|
12
|
787
|
787
|
450
|
127
|
25.4
|
120
|
560
|
485
|
|
13
|
800
|
800
|
450
|
200
|
28-40
|
135
|
600
|
500
|
|
14
|
900
|
900
|
380
|
80
|
28-40
|
400
|
764
|
720
|
|
15
|
1000
|
1000
|
500
|
200
|
28-40
|
320
|
780
|
660
|
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