Data Sheet, V., June 4 Uni- and ipolar Hall IC Switches for Magnetic Field Applications TLE495G TLE4935G TLE4935-G TLE4945-G Sensors Never stop thinking.
Edition 4-3-9 Published by Infineon Technologies AG, St.-Martin-Strasse 53, 89 München, Germany Infineon Technologies AG 4. All Rights Reserved. Attention please! The information herein is given to describe certain components and shall not be considered as a guarantee of characteristics. Terms of delivery and rights to technical change reserved. We hereby disclaim any and all warranties, including but not limited to warranties of non-infringement, regarding circuits, descriptions and charts stated herein. Information For further information on technology, delivery terms and conditions and prices please contact your nearest Infineon Technologies Office (www.infineon.com). Warnings Due to technical requirements components may contain dangerous substances. For information on the types in question please contact your nearest Infineon Technologies Office. Infineon Technologies Components may only be used in life-support devices or systems with the express written approval of Infineon Technologies, if a failure of such components can reasonably be expected to cause the failure of that life-support device or system, or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body, or to support and/or maintain and sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other persons may be endangered.
Uni- and ipolar Hall IC Switches for Magnetic Field Applications TLE495G; TLE4935G; Features Digital output signal For unipolar and alternating magnetic fields Large temperature range Temperature compensated magnetic performance Protection against reversed polarity Output protection against electrical disturbances SOT-89 Type Marking Ordering Code Package TLE495G 5 Q75-K4 SOT-89 TLE4935G 35 Q75-K44 SOT-89 TLE4935-G 35 Q75-K45 SOT-89 TLE4945-G 45 Q75-K43 SOT-89 TLE495/35/35-/45- (Unipolar/ipolar Magnetic Field Switches) have been designed specifically for automotive and industrial applications. Reverse polarity protection is included on-chip as is output protection against negative voltage transients. Typical applications are position/proximity indicators, brushless DC motor commutation, rotational indexing etc. Data Sheet 3 V., 4--7
TLE495G; TLE4935G; Pin Configuration (view on branded side of component).5 ±. Center of sensitive area ±. 3 AEP5 Figure Pin Definitions and Funtions Pin No. Symbol Function V S Supply voltage GND Ground 3 Q Output Data Sheet 4 V., 4--7
TLE495G; TLE4935G; Circuit Description The circuit includes Hall generator, amplifier and Schmitt-Trigger on one chip. The internal reference provides the supply voltage for the components. A magnetic field perpendicular to the chip surface induces a voltage at the hall probe. This voltage is amplified and switches a Schmitt-trigger with open-collector output. A protection diode against reverse power supply is integrated. The output is protected against electrical disturbances. Threshold Generator V S Hall- Generator 3 Q V S V Ref Amplifier Schmitt- Trigger GND Output Stage AE43 Figure lock Diagram Data Sheet 5 V., 4--7
TLE495G; TLE4935G; Functional Description Unipolar Type TLE495 (Figure 3 and 4) When a positive magnetic field is applied in the indicated direction (Figure 3) and the turn-on magnetic induction OP is exceeded, the output of the Hall-effect IC will conduct (Operate Point). When the magnetic field is reduced to a value smaller than the release point, the output of the IC turns off (Release Point; Figure 4). Ι randed Side + S N V Q + V S - AES3 Figure 3 Sensor/Magnetic-Field Configuration OP RP Induction t V Q V QH Output Voltage V QL t AED4 Figure 4 Switching Characteristics Unipolar Type Data Sheet V., 4--7
TLE495G; TLE4935G; Functional Description ipolar Type TLE4935/35-/45- (Figure 5 and ) When a positive magnetic field is applied in the indicated direction (Figure 5) and the turn-on magnetic induction OP is exceeded, the output of the Hall-effect IC will conduct (Operate Point). The output state does not change unless a reverse magnetic field exceeding the turn-off magnetic induction RP is exceeded. In this case the output will turn off (Release Point; Figure ). Ι randed Side + S N V Q + V S - AES3 Figure 5 Sensor/Magnetic-Field Configuration OP t Induction RP V Q V QH Output Voltage V QL t AED4 Figure Switching Characteristics ipolar Type Data Sheet 7 V., 4--7
TLE495G; TLE4935G; Absolute Maximum Ratings T j = 4 to 5 C Parameter Symbol Limit Values Unit Remarks min. max. Supply voltage V S 4 3 V Supply voltage V S 4 V t < 4 ms; ν =. Output voltage V Q 3 V Output current I Q ma Output reverse current I Q ma Junction temperature T j 4 5 C Storage temperature T stg 5 5 C Thermal resistance R th JA K/W Note: Stresses above those listed here may cause permanent damage to the device. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. Operating Range Parameter Symbol Limit Values Unit Remarks min. max. Supply voltage V S 4. 4 V Junction temperature T j 4 5 C Note: In the operating range the functions given in the circuit description are fulfilled. Data Sheet 8 V., 4--7
TLE495G; TLE4935G; AC/DC Characteristics 4. V V S 4 V; 4 C T j 5 C Parameter Symbol Limit Values Unit Test Condition Test Circuit min. typ. max. Supply current Output saturation voltage Output leakage current I I SHigh I SLow..5 3.5 5. ma ma ma < RP > OP V QSat.5.5 V I Q = 4 ma I QL µa V Q = 8 V Rise/fall time t r / t f µs R L =. kω C L 33 pf Note: The listed characteristics are ensured over the operating range of the integrated circuit. Typical characteristics specify mean values expected over the production spread. If not otherwise specified, typical characteristics apply at T j = 5 C and the given supply voltage. Data Sheet 9 V., 4--7
TLE495G; TLE4935G; Magnetic Characteristics 4. V V S 4 V Parameter Symbol Limit Values Unit TLE495 unipolar TLE4935 bipolar latch TLE4935- bipolar latch TLE4945- bipolar switch min. max. min. max. min. max. min. max. Junction Temperature T j = 4 C Turn-ON induction Turn-OFF induction Hysteresis ( OP - RP ) OP RP H 7.5 5.5 9 7.5 4 5 7 3 7 5 54 3 3 5 Junction Temperature T j = 5 C Turn-ON induction Turn-OFF induction Hysteresis ( OP - RP ) OP RP H 7 5 8 4 4 8 4 5 3 3 5 Junction Temperature T j = 85 C Turn-ON induction Turn-OFF induction Hysteresis ( OP - RP ) OP RP H.5 4.5 7.5 5 5.5 4 3 3 5 3 3 5 Junction Temperature T j = 5 C Turn-ON induction Turn-OFF induction Hysteresis ( OP - RP ) OP RP H 4 7 4 5 4 5 4 5 5 3 3 5 Note: The listed characteristics are ensured over the operating range of the integrated circuit. Typical characteristics specify mean values expected over the production spread. If not otherwise specified, typical characteristics apply at T j = 5 C and the given supply voltage. Data Sheet V., 4--7
TLE495G; TLE4935G; V S + - R L 4.7 nf Ι S V S GND TLE 495/35/35-/45- C L Ι Q 3 Q AES44 Unipolar Type TLE495 V Q ipolar Type TLE4935 V Q V QH V QH V QL V QL RP OP RP OP HY HY AED4 V Q V QH.9 V QH. V QH t r t f t AED4 Figure 7 Test Circuit Data Sheet V., 4--7
TLE495G; TLE4935G; Mainframe Line Sensor V S V S 4.7 nf Signal. kω 4.7 nf 3 GND Q TLE 495/35/35-/45- AES47 Figure 8 Application Circuit Data Sheet V., 4--7
TLE495G; TLE4935G; If not otherwise specified, all curves reflect typical values at T j = 5 C and V S = V Quiescent Current Difference versus Temperature. Ι S ma.75 Ι S = Ι SLow - Ι SHigh Ι Q = 4 ma AED459 Saturation Voltage versus Output Current V Q. V..8 4. V _<V S _< 4 V AED99.5. T j = 5 C.5.4. T j = -4 C -4 5 5 C 4 ma T j Ι Q Quiescent Current versus Junction Temperature 8 Ι S ma V Q = High AED49 TLE495 Operate-and Release-Point versus Junction Temperature 5 4. V _<V S _< 4 V AED384 OPmax 5 4 V S = 4 V RPmax V S = 4. V 5 OPmin RPmin -5 5 C T j -4 5 C Tj Data Sheet 3 V., 4--7
TLE495G; TLE4935G; TLE4935 Operate-and Release-Point versus Junction Temperature TLE4935- Operate-and Release-Point versus Junction Temperature 3 4. V _<V S _< 4 V AED385 OPmax 3 AED38 4. V <_V < _ S 4 V OPmax OPmin OPmin - RPmax - RPmax - RPmin - -4 RPmin 5 C Tj -3-4 5 C T j TLE495 Hysteresis versus Junction Temperature TLE4945- Operate-and Release-Point versus Junction Temperature 8 4. V _<V S _< 4 V AED387 8 4. V <_V < _ S 4 V AED388 HYmax OPmax RPmax 4 OPmin HYmin - - RPmin -4 5 C Tj -8-4 5 C T j Data Sheet 4 V., 4--7
TLE495G; TLE4935G; Package Outlines SOT-89 (SMD) (Plastic Small Outline Transistor Package).5 ±.5 4.5 45.5.5 ±.. ±. +. acc. to DIN 784.5 ±. 4 ±.5 max +. -.5.75.5.5 M +..45 -.. ±..35 ±. 3. GPS5558 Package Information d d: Distance chip to upper side of IC SOT-89:.5 mm AEA487 Sorts of Packing Package outlines for tubes, trays etc. are contained in our data book Package Information. SMD = Surface Mounted Device Dimensions in mm Data Sheet 5 V., 4--7
TLE495G; TLE4935G ; Revision History:4--7, V. Previous Version: 4-3-9, V. Page Subjects (major changes since last revision) 3,4 typical curves removed - new format of data sheet For questions on technology, delivery and prices please contact the Infineon Technologies offices in Germany or the Infineon Technologies Companies and Representatives worldwide: see our webpage at http://www.infineon.com We Listen to Your Comments Any information within this document that you feel is wrong, unclear or missing at all? Your feedback will help us to continuously improve the quality of this document. Please send your proposal (including a reference to this document) to: feedback.sensors@infineon.com Data Sheet V., 4--7
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