Battery Management System for Automotive

Battery Management System for Automotive

Such as reduction of power consumption and miniaturization are important in battery management system. Toshiba provides information on a wide range of semiconductor products suitable for charging circuit, cell balancing circuit, battery monitoring circuit, etc., along with circuit configuration examples.

Overall block diagram

Click the area you want to check the details in the overall block diagram. Show links to our proposed sub-block diagram.

 DC-DC Converter DC-DC Converter ADC ADC MCU MCU CAN Line CAN Line IC output photocoupler IC output photocoupler High Side () High Side () Low Side (ー) Low Side () Sticking detection Sticking detection Pre charge switch Pre charge switch High side switch High side switch Low side switch Low side switch Sticking detection Sticking detection Sticking detection Sticking detection Isolation Isolation Isolation Isolation DC-DC Converter DC-DC Converter GND fault sensing GND fault sensing GND fault sensing GND fault sensing Wire (H) W Battery Management IC BatteryManagementIC Battery Management IC BatteryManagementIC Charging circuit (Prevention of sticking/Detection of mechanical relay sticking) Battery monitoring circuit Charging circuit (Ground fault sensing circuit) Charging circuit (Ground fault sensing circuit) Passive cell voltage regulation Adding redundancy to communications Battery shutdown circuit
Charging circuit (Prevention of sticking/Detection of mechanical relay sticking)

Example of a charging circuit in which a semiconductor switch is configured using a photovoltaic output photocoupler

Example of a charging circuit in which a photorelay is used to configure a mechanical relay sticking detection circuit

Charging circuit (Ground fault sensing circuit)

Example of a charging circuit in which a ground fault sensing circuit is configured using a photorelay

Passive cell voltage regulation

Example of passive cell voltage regulation circuit using PMIC

Example of passive cell voltage regulation circuit without PMIC

Battery monitoring circuit

Example of battery total voltage monitoring circuit using photorelay and IC output photocoupler

Adding redundancy to communications

Example of communication redundancy using a photocoupler

Battery shutdown circuit

Example of a battery shutdown circuit using a mechanical relay

Sub block diagram

Charging circuit (Prevention of sticking/Detection of mechanical relay sticking)
Charging circuit (Prevention of sticking)

Example of a charging circuit in which a semiconductor switch is configured using a photovoltaic output photocoupler

Example of a charging circuit in which a semiconductor switch is configured using a photovoltaic output photocoupler
Photovoltaic output photocoupler
Part Number
Toshiba Package Name 4pin SO6 4pin SO6
BVS (Min) [Vrms] @ t = 60 [s] 3750 3750
ISC (Min) [µA] @ IF = 10 [mA] 12 12
VOC (Min) [V] @ IF = 10 [mA] 7 7
Charging circuit (Detection of mechanical relay sticking)

Example of a charging circuit in which a photorelay is used to configure a mechanical relay sticking detection circuit

Example of a charging circuit in which a photorelay is used to configure a mechanical relay sticking detection circuit
Photorelay
Part Number
Toshiba Package Name 4pin SO6 SO16L-T
BVS (Min) [Vrms] @ t = 60 [s] 3750 5000
ION (Max) [A]   0.05
RON (Max) [Ω]   250
IFT (Max) [mA] 3 3
IFC (Max) [mA]    
Charging circuit (Ground fault sensing circuit)
Charging circuit (Ground fault sensing circuit)

Example of a charging circuit in which a ground fault sensing circuit is configured using a photorelay

Example of a charging circuit in which a ground fault sensing circuit is configured using a photorelay
Photorelay
Part Number
Toshiba Package Name 4pin SO6 SO16L-T
BVS (Min) [Vrms] @ t = 60 [s] 3750 5000
ION (Max) [A]   0.05
RON (Max) [Ω]   250
IFT (Max) [mA] 3 3
IFC (Max) [mA]    
Passive cell voltage regulation
Passive cell voltage regulation (Use of PMIC)

Example of passive cell voltage regulation circuit using PMIC

Example of passive cell voltage regulation circuit using PMIC
General purpose small signal MOSFET
Part Number
Toshiba Package Name S-Mini S-Mini VESM
VDSS (Max) [V] 60 -60 -20
ID (Max) [A] 0.4 -0.4 -0.8
RDS(ON) (Max) [Ω] @ |VGS| = 4.5 [V] 1.75 1.9 0.39
Polarity N-ch P-ch P-ch
Passive cell voltage regulation (Not use of PMIC)

Example of passive cell voltage regulation circuit without PMIC

Example of passive cell voltage regulation circuit without PMIC
Photovoltaic output photocoupler
Part Number
Toshiba Package Name 4pin SO6 4pin SO6
BVS (Min) [Vrms] @ t = 60 [s] 3750 3750
ISC (Min) [µA] @ IF = 10 [mA] 12 12
VOC (Min) [V] @ IF = 10 [mA] 7 7
General purpose small signal MOSFET
Part Number
Toshiba Package Name S-Mini S-Mini VESM
VDSS (Max) [V] 60 -60 -20
ID (Max) [A] 0.4 -0.4 -0.8
RDS(ON) (Max) [Ω] @ |VGS| = 4.5 [V] 1.75 1.9 0.39
Polarity N-ch P-ch P-ch
Battery monitoring circuit
Battery monitoring circuit

Example of battery total voltage monitoring circuit using photorelay and IC output photocoupler

Example of battery total voltage monitoring circuit using photorelay and IC output photocoupler
Photorelay
Part Number
Toshiba Package Name 4pin SO6 SO16L-T
BVS (Min) [Vrms] @ t = 60 [s] 3750 5000
ION (Max) [A]   0.05
RON (Max) [Ω]   250
IFT (Max) [mA] 3 3
IFC (Max) [mA]    
IC output photocoupler
Part Number
Toshiba Package Name 5pin SO6 5pin SO6 5pin SO6 5pin SO6 5pin SO6
BVS (Min) [Vrms] @ t = 60 [s] 3750 3750 3750 3750 3750
VCC / VDD (Min) [V] 4.5     4.5 4.5
VCC / VDD (Max) [V] 20 30   5.5 5.5
ICC / IDD (Max) [mA]          
Output Interface          
Adding redundancy to communications
Adding redundancy to communications

Example of communication redundancy using a photocoupler

Example of communication redundancy using a photocoupler
Transistor output photocoupler
Part Number
Toshiba Package Name SO4 4pin SO6 SO4 4pin SO6 4pin SO6
BVS (Min) [Vrms] @ t = 60 [s] 3750 3750 3750 3750 3750
VCEO (Max) [V] 80 80 40 40 200
Topr [°C] -40 to 125 -40 to 125 -40 to 125 -40 to 125 -40 to 125
Battery shutdown circuit
Battery shutdown circuit

Example of a battery shutdown circuit using a mechanical relay

Example of a battery shutdown circuit using a mechanical relay
MOSFET with a built-in active clamp circuit
Part Number
Toshiba Package Name SOT-23F SOT-23F
VDSS (Max) [V] 38 38
ID (Max) [A] 2.0 2.0
RDS(ON) (Max) [Ω] @ |VGS| = 4.5 [V] 0.41 0.176
Polarity N-ch + Active Clamp Zener N-ch + Active Clamp Zener
Low side switch / High side switch (up to 1 A)
Part Number
Toshiba Package name PS-8 (SON8-P) PS-8 (SON8-P) PS-8 (SON8-P)
VBB (Max) [V]      
VCC (Max) [V]      
IO (Max) [A]   1.0 0.8
Low side switch / High side switch (1 to 5 A)
Part Number
Toshiba Package name WSON10 WSON10
VBB (Max) [V]    
VCC (Max) [V]    
IO (Max) [A] 6.0 3.0
General purpose small signal bipolar transistor
Part Number
Toshiba Package Name SSM SSM USM USM S-Mini S-Mini
VCEO (Max) [V] -50 50 50 -50 50 -50
IC (Max) [mA] -0.15 0.15 0.15 -0.15 0.15 -0.15
Polarity PNP NPN NPN PNP NPN PNP
Small signal bias resistor built-in transistor (BRT)
Part Number
Toshiba Package Name ES6 ES6 US6 US6
VCEO (Q1) (Max) [V] 50 -50 50 -50
VCEO (Q2) (Max) [V] 50 -50 50 -50
IC (Q1) (Max) [mA] 0.1 -0.1 0.1 -0.1
IC (Q2) (Max) [mA] 0.1 -0.1 0.1 -0.1
Polarity (Q1) NPN PNP NPN PNP
Polarity (Q2) NPN PNP NPN PNP
TVS diode (for CAN communication)
Part Number
Toshiba Package Name USM USM USM
VESD (Max) [kV] +/-30 +/-25 +/-20
IR (Max) [µA] 0.1 0.1 0.1
Rdyn (Typ.) [Ω] 0.8 1.1 1.5
CT (Typ.) [pF] @ VR = 0 [V], f = 1 [MHz] 9 9 6.5

Solution Proposal

These documents explain the key points of recommended semiconductor products and their features. Please use them for product selection.

Documents

Design & Development

Switched Mode Power Supply Library

you can select and download various basic topologies of a power supply unit based on your actual requirements in order to verify the behavior of MOSFETs with your simulation environment.

Motor Control and Driver Circuit Library

you can select and download various basic topologies of motor driver such as three-phase inverter circuit based on your actual requirements in order to verify the behavior of MOSFETs and another devices for your simulation environment.

MCU Motor Studio

MCU Motor Studio features a PC Tool and motor control firmware dedicated to the TXZ+TM Family Advanced Class microcontrollers from Toshiba.

Simulation

Simulation data for testing during the development of the circuit boards for end-products.

2D/3D data

We provide 3D models and land pattern models (2D models) of each product package.

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