Part Number Search

Cross Reference Search

About information presented in this cross reference

The information presented in this cross reference is based on TOSHIBA's selection criteria and should be treated as a suggestion only. Please carefully review the latest versions of all relevant information on the TOSHIBA products, including without limitation data sheets and validate all operating parameters of the TOSHIBA products to ensure that the suggested TOSHIBA products are truly compatible with your design and application.
Please note that this cross reference is based on TOSHIBA's estimate of compatibility with other manufacturers' products, based on other manufacturers' published data, at the time the data was collected.
TOSHIBA is not responsible for any incorrect or incomplete information. Information is subject to change at any time without notice.

Keyword Search

Parametric Search

Stock Check & Purchase

Select Product Categories

Automotive audio power amplifier ICs

Toshiba’s audio power amplifier for in-vehicle adopts the low on-resistance 0.13um process with the leading edge and top-class in the industry, and realize the high quality design by including the various protection functions and the original safety function for in-vehicle.
In addition, the audio amplifier can realize the low-power consumption design equaled to class-d amplifier by using the TB class that is the original linear high-efficiency technology.
The amplifier contributes to the safety, high reliability and low-power consumption of products for customer.

Lineup

4-channel Audio Power Amplifier IC (Recommended Products)

Process Part Number Max Power Class Voltage Gain I2C Bus Output DC Offset Det. Clip Det. Short-Circuit Det. High-Side Switch Half Short Det. Speaker Burning Prevention
Load
GSM 6V Crui-sing Package Status
VCC= 15.2 V VCC= 14.4 V
BiCD0.13
μm
TB2952AHQ 49W 45W AB 26dB/
12dB




 
 


HZIP25 MP
49W 45W KB** 26dB/
16dB




 
 


HZIP25
CD0.13μm 45W  40W  AB 26dB  
 
   
   
HZIP25
HSOP36
49W 44W AB 26dB   *  


 


HZIP25
49W 44W AB 26dB   *  
 
 


HZIP25
49W 45W AB 26dB  


 
 


HZIP25
49W 45W TB*** 26dB/
16dB

*

 
 


HSOP36
45W 40W TB*** 26dB/
16dB

*

 
   

HSOP36

* Full time output DC offset detection(TOSHIBA Patent)
** KB: Knitted BTL(Bridge Tied Load)
*** TB: Tied BTL(Bridge Tied Load)

 

1-channel Audio Power Amplifier IC

Process Part Number Max Output Class Voltage Gain Thermal Det. Speaker-Open Det. Short-Circuit Det. Over-Voltage Det. Comment Package Status
VCC= 16 V VCC= 12 V
BiCD0.13μm 5W 3W AB

26dB

(variable)





Vehicle Sound for Pedestrian TSSOP16 MP

Technical topics

4-channel audio power amplifier IC concept

  • CD 0.13μm Process

Higher toughness process for +B Surge

  • Higher Toughness for Immunity Noise

Easy to design for EMI/EMC/BCI etc

  • Full-time output DC offset detection (TOSHIBA Patent)

The IC can perform full-time DC offset voltage detection at speaker terminals. It is possible to realize a system that prevents the speaker voice coil burning caused by the occurrence of DC offset voltage.

  • Small flat package
  • New Linear High-efficiency AMP “Class-TB”

Temperature reduced approx. 20-40 degrees C compared with other AMPs.

  • 6V cruising design
  • Diagnosis function

 

Temperature data of Class-AB/TB AMP
Temperature data of Class-AB/TB AMP

Test Condition

Vcc=13.2V, f=1kHz, RL=4Ω, Pout=0.4W x 4ch operated, Ta=25℃,
Heat sink Thermal resistance : 6.5℃/W (Size : 85×85×2mm at Aluminum)

Toshiba’s original linear high-efficiency amplifier: Class-TB achieves efficiency TCB701FNG(50 W)/702FNG (45 W)

High efficiency (TOSHIBA Patent)

Power dissipation comparison

  • vs Conventional Class-AB AMP >>> -80% reduction
  • vs Digital Class-D AMP >>> Closer under Pout <4 W
Low BOM costs

Reasonable external parts

  • vs Conventional Class-AB AMP >>> Same 
  • vs Digital Class-D AMP >>> Less than half 
Full-time output DC offset detection (TOSHIBA Patent)
  • The IC can perform full-time DC offset voltage detection at speaker terminals. It is possible to realize a system that prevents the speaker voice coil burning caused by the occurrence of DC offset voltage.
Power Dissipation at Pout=0.8W/channel
Toshiba’s original linear high-efficiency amplifier: Class-TB achieves efficiency TCB701FNG(50 W)/702FNG (45 W)

Documents

Catalog

Name

Applications

Automotive IVI
Automotive ADAS

Contacts

Technical inquiry

Contact us

Contact us

Frequently Asked Questions

FAQs

Queries about purchasing, sampling and IC reliability

Stock Check & Purchase

keyword:

* System and product names mentioned herein may be trademarks or registered trademarks of respective companies or organizations.
A new window will open