Produktdetails

Continuous current (max) (A) 20 Working isolation voltage (VIOWM) (Vrms) 424 Input offset current (±) (max) (mA) 40, 47.5, 50, 60 Input offset current drift (±) (typ) (µA/°C) 0.1 Features Externally Driven Zero Current Reference Voltage Supply voltage (max) (V) 5.5 Supply voltage (min) (V) 3 Iq (max) (mA) 6 Small-signal bandwidth (kHz) 80 Sensitivity error (%) 0.2 Sensitivity error drift (±) (max) (ppm/°C) 50 Rating Catalog Operating temperature range (°C) -40 to 125 Creepage (min) (mm) 4 Clearance (min) (mm) 4 Isolation rating Basic Surge isolation voltage (VIOSM) (VPK) 6000
Continuous current (max) (A) 20 Working isolation voltage (VIOWM) (Vrms) 424 Input offset current (±) (max) (mA) 40, 47.5, 50, 60 Input offset current drift (±) (typ) (µA/°C) 0.1 Features Externally Driven Zero Current Reference Voltage Supply voltage (max) (V) 5.5 Supply voltage (min) (V) 3 Iq (max) (mA) 6 Small-signal bandwidth (kHz) 80 Sensitivity error (%) 0.2 Sensitivity error drift (±) (max) (ppm/°C) 50 Rating Catalog Operating temperature range (°C) -40 to 125 Creepage (min) (mm) 4 Clearance (min) (mm) 4 Isolation rating Basic Surge isolation voltage (VIOSM) (VPK) 6000
SOIC (D) 8 29.4 mm² 4.9 x 6
  • Total error: ±0.4% typical, ±0.9% maximum, –40°C to 85°C
    • Sensitivity error: ±0.4%
    • Offset error: 7 mA
    • Offset drift: 0.04 mA/°C
    • Linearity error: 0.05%
  • Lifetime and environmental drift: <±0.5%
  • 3-kVRMS isolation rating
  • Robust 600-V lifetime working voltage
  • Bidirectional and unidirectional current sensing
  • External reference voltage
  • Operating supply range: 3 V to 5.5 V
  • Signal bandwidth: 80 kHz
  • Multiple sensitivity options:
    • TMCS1100A1: 50 mV/A
    • TMCS1100A2: 100 mV/A
    • TMCS1100A3: 200 mV/A
    • TMCS1100A4: 400 mV/A
  • Safety related certifications
    • UL 1577 Component Recognition Program
    • IEC/CB 62368-1
  • Total error: ±0.4% typical, ±0.9% maximum, –40°C to 85°C
    • Sensitivity error: ±0.4%
    • Offset error: 7 mA
    • Offset drift: 0.04 mA/°C
    • Linearity error: 0.05%
  • Lifetime and environmental drift: <±0.5%
  • 3-kVRMS isolation rating
  • Robust 600-V lifetime working voltage
  • Bidirectional and unidirectional current sensing
  • External reference voltage
  • Operating supply range: 3 V to 5.5 V
  • Signal bandwidth: 80 kHz
  • Multiple sensitivity options:
    • TMCS1100A1: 50 mV/A
    • TMCS1100A2: 100 mV/A
    • TMCS1100A3: 200 mV/A
    • TMCS1100A4: 400 mV/A
  • Safety related certifications
    • UL 1577 Component Recognition Program
    • IEC/CB 62368-1

The TMCS1100 is a galvanically isolated Hall-effect current sensor capable of DC or AC current measurement with high accuracy, excellent linearity, and temperature stability. A low-drift, temperature-compensated signal chain provides < 1% full-scale error across the device temperature range.

The input current flows through an internal 1.8-mΩ conductor that generates a magnetic field measured by an integrated Hall-effect sensor. This structure eliminates external concentrators and simplifies design. Low conductor resistance minimizes power loss and thermal dissipation. Inherent galvanic insulation provides a 600-V lifetime working voltage and 3-kVRMS basic isolation between the current path and circuitry. Integrated electrical shielding enables excellent common-mode rejection and transient immunity.

The output voltage is proportional to the input current with four sensitivity options. Fixed sensitivity allows the TMCS1100 to operate from a single 3-V to 5.5-V power supply, eliminates ratiometry errors, and improves supply noise rejection. The current polarity is considered positive when flowing into the positive input pin. The VREF input pin provides a variable zero-current output voltage, enabling bidirectional or unidirectional current sensing.

The TMCS1100 draws a maximum supply current of 6 mA, and all sensitivity options are specified over the operating temperature range of –40°C to +125°C.

The TMCS1100 is a galvanically isolated Hall-effect current sensor capable of DC or AC current measurement with high accuracy, excellent linearity, and temperature stability. A low-drift, temperature-compensated signal chain provides < 1% full-scale error across the device temperature range.

The input current flows through an internal 1.8-mΩ conductor that generates a magnetic field measured by an integrated Hall-effect sensor. This structure eliminates external concentrators and simplifies design. Low conductor resistance minimizes power loss and thermal dissipation. Inherent galvanic insulation provides a 600-V lifetime working voltage and 3-kVRMS basic isolation between the current path and circuitry. Integrated electrical shielding enables excellent common-mode rejection and transient immunity.

The output voltage is proportional to the input current with four sensitivity options. Fixed sensitivity allows the TMCS1100 to operate from a single 3-V to 5.5-V power supply, eliminates ratiometry errors, and improves supply noise rejection. The current polarity is considered positive when flowing into the positive input pin. The VREF input pin provides a variable zero-current output voltage, enabling bidirectional or unidirectional current sensing.

The TMCS1100 draws a maximum supply current of 6 mA, and all sensitivity options are specified over the operating temperature range of –40°C to +125°C.

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TMCS1100 wurde mit dem LEAP Award (Leadership in Engineering Achievement Program) in Gold in der Kategorie „Switches & Sensors“ (Schalter und Sensoren) ausgezeichnet.

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Selbe Funktionalität wie der verglichene Baustein bei gleicher Anschlussbelegung
TMCS1101 AKTIV Hall-Effekt-Stromsensor, Basisisolierung ±600 V, 20 Arms, 80 kHz, mit Referenz The TMCS1101 has the same functionality but with an internal reference voltage

Technische Dokumentation

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Typ Titel Datum
* Data sheet TMCS1100 1% High-Precision, Basic Isolation Hall-Effect Current Sensor With ±600-V Working Voltage datasheet (Rev. B) PDF | HTML 27 Jul 2021
White paper How Accurate Sensing Enables Better System Performance and Increased Efficiency (Rev. C) PDF | HTML 22 Okt 2023
Application brief Current Sensing Applications in Communication Infrastructure Equipment (Rev. C) PDF | HTML 08 Aug 2023
Application brief Current Sensing in Collaborative and Industrial Robotic Arms (Rev. B) PDF | HTML 24 Jul 2023
Application brief Improving Power Amplifier Efficiency With Current Monitors (Rev. B) PDF | HTML 24 Jul 2023
Application brief Low-Drift, Precision, In-Line Isolated Magnetic Motor Current Measurements (Rev. A) 24 Jul 2023
Application note TMCS110x Layout Challenges and Best Practices PDF | HTML 03 Dez 2022
White paper Improve High-Voltage System Efficiency With Zero-Drift Hall-Effect Current Sense (Rev. A) PDF | HTML 15 Mär 2022
EVM User's guide TMCS1100EVM User's Guide (Rev. B) PDF | HTML 25 Aug 2021
Application note Compact Multichannel Current Sensing PDF | HTML 06 Nov 2020
Application note Thermal Implementation Guide for In-Package Magnetic Current Sensors PDF | HTML 12 Jul 2020
Technical article How to select the right current sense technology for your high-voltage system PDF | HTML 06 Jul 2020
Technical article How to use Hall-effect current sensors in telecom rectifiers and server PSUs PDF | HTML 06 Mai 2020
Technical article How current sensors help monitor and protect the world’s wireless infrastructure PDF | HTML 30 Dez 2019
Application brief Precision Designs with Non-Ratiometric Magnetic Current Sensors 01 Jul 2019

Design und Entwicklung

Weitere Bedingungen oder erforderliche Ressourcen enthält gegebenenfalls die Detailseite, die Sie durch Klicken auf einen der unten stehenden Titel erreichen.

Evaluierungsplatine

TMCS1100EVM — TMCS1100-Evaluierungsmodul zur isolierten Hall-Effekt-Strommessung

The TMCS1100EVM is a tool intended to facilitate rapid, convenient use of the TMCS1100, an isolated Hall-effect precision crrent sense monitor utilizing an external reference.  This evaluation module allows the user to push the max operating current through the Hall-input side while measuring (...)
Benutzerhandbuch: PDF | HTML
Simulationsmodell

TMCS1100 TINA-TI Reference Design (Rev. A)

SBOMB06A.TSC (171 KB) - TINA-TI Reference Design
Simulationsmodell

TMCS1100 TINA-TI SPICE Model (Rev. B)

SBOMB07B.ZIP (27 KB) - TINA-TI Spice Model
Simulationsmodell

TMCS1100A1 PSpice Model

SBOMBE7.ZIP (20 KB) - PSpice Model
Simulationsmodell

TMCS1100A2 PSpice Model

SBOMBE6.ZIP (22 KB) - PSpice Model
Simulationsmodell

TMCS1100A3 PSpice Model

SBOMBE5.ZIP (21 KB) - PSpice Model
Simulationsmodell

TMCS1100A4 PSpice Model

SBOMBE3.ZIP (21 KB) - PSpice Model
Simulationstool

TINA-TI — SPICE-basiertes analoges Simulationsprogramm

TINA-TI provides all the conventional DC, transient and frequency domain analysis of SPICE and much more. TINA has extensive post-processing capability that allows you to format results the way you want them. Virtual instruments allow you to select input waveforms and probe circuit nodes voltages (...)
Benutzerhandbuch: PDF
Referenzdesigns

TIDA-010062 — 1-kW, 80+ titanium, GaN CCM totem pole bridgeless PFC and half-bridge LLC with LFU reference design

This reference design is a digitally controlled, compact 1-kW AC/DC power supply design for server power supply unit (PSU) and telecom rectifier applications. This highly efficient design supports two main power stages, including a front-end continuous conduction mode (CCM) totem-pole bridgeless (...)
Design guide: PDF
Schaltplan: PDF
Referenzdesigns

PMP23069 — Referenzdesign für einphasige Totem-Pole-PFC-Schaltung mit 3 kW, 180 W/in3 und max. 16 A Eingangsstr

Dieses Referenzdesign demonstriert eine Methode zur Steuerung eines Totem-Pole-Leistungsfaktorkorrekturwandlers (PFC) im Continuous Conduction Mode mit Mikrocontrollern C2000 F28003x und F28004x. Die PFC arbeitet auch als Inverter im netzgekoppelten (stromgesteuerten) Modus. Die Stromversorgung ist (...)
Test report: PDF
Referenzdesigns

PMP41006 — 1-kW-Referenzdesign mit CCM-Totem-Pole PFC and Strommodus-LLC umgesetzt durch C2000™ and GaN

Dieses Referenzdesign demonstriert ein hybrides Hysteresesteuerungsverfahren (HHC), eine Art Strommodus-Steuerungsverfahren auf Halbbrücken-LLC-Stufe mit einem C2000™-F28004x-Mikrocontroller. Die Hardware basiert auf TIDA-010062, einem Referenzdesign mit 1 kW, 80-Plus Titan, brückenloser (...)
Test report: PDF
Referenzdesigns

PMP41043 — 1,6-kW-Referenzdesign mit CCM-Totem-Pole PFC and Strommodus LLC umgesetzt durch C2000 and GaN

Dieses Referenzdesign demonstriert ein hybrides Hysteresesteuerungsverfahren (HHC), eine Art Strommodus-Steuerungsverfahren auf Halbbrücken-LLC-Stufe mit einem C2000-F28004x-Mikrocontroller. Die Hardware basiert auf TIDA-010062, einem Referenzdesign mit 1 kW, 80-Plus Titan, brückenloser (...)
Test report: PDF
Referenzdesigns

PMP40690 — Interleaved-CCM-Totem-Pole-Referenzdesign, 4 KW, mit brückenloser PFC-Schaltung C2000™ MCU und GaN

This reference design is a 4-kW interleaved CCM totem pole (TTPL) bridgeless PFC reference design using a 64-pin C2000™ microcontroller, LM3410 gallium nitride device and TMCS1100 hall sensor. It is based on TIDM-02008 bidirectional interleaved CCM TTPL bridgeless PFC reference (...)
Test report: PDF
Schaltplan: PDF
Referenzdesigns

TIDA-010059 — Referenzdesign für In-Phase-Strommessung für 230-VAC-Motorantriebe mit Hall-Effekt-Stromsensoren

This reference design features the Hall-effect current sensor, TMCS1100, that can measure currents with an absolute error of < 1% (–40 to 125°C) and provide a working isolation voltage of up to 600 V. The low-resistance in-package current sensing element and lack of need for high-side (...)
Design guide: PDF
Schaltplan: PDF
Gehäuse Pins CAD-Symbole, Footprints und 3D-Modelle
SOIC (D) 8 Ultra Librarian

Bestellen & Qualität

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  • RoHS
  • REACH
  • Bausteinkennzeichnung
  • Blei-Finish/Ball-Material
  • MSL-Rating / Spitzenrückfluss
  • MTBF-/FIT-Schätzungen
  • Materialinhalt
  • Qualifikationszusammenfassung
  • Kontinuierliches Zuverlässigkeitsmonitoring
Beinhaltete Information:
  • Werksstandort
  • Montagestandort

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