-
My ToshibaSemicon
- General Top View
-
SEMICONDUCTOR View
-
Applications
Body Electronics
xEV
In-Vehicle Infotainment
Advanced Driver-Assistance Systems (ADAS)
Chassis
Infrastructure
BEMS/HEMS
Factory Automation
Commercial Equipment
IoT Equipment
Healthcare
Wearable Device
Mobile
Computer Peripherals
-
Products
Products
-
Design & Development
Design & Development
Innovation Centre
At the Toshiba Innovation Centre we constantly strive to inspire you with our technologies and solutions. Discover how to place us at the heart of your innovations.
-
Knowledge
Knowledge
Highlighted Topics
Further Materials
Other
- Where To Buy View
-
- STORAGE View
- COMPANY View
- Part Number Search
- Cross Reference Search
- Keyword Search
- Parametric Search
- Stock Check & Purchase
This webpage doesn't work with Internet Explorer. Please use the latest version of Google Chrome, Microsoft Edge, Mozilla Firefox or Safari.
require 3 characters or more.
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.
require 3 characters or more.
Logic Circuit: Exclusive OR (XOR) Circuit
By combining the basic logic circuits described so far, a circuit with a specific function can be configured.
Here, we will explain about the XOR (*) circuit used for a comparator that checks for the data mismatch and the adder.
The switch in the figure defines the pressed state as "ON" and the pulled state as "OFF".
When switch A is "ON", the upper circuit is connected and the lower circuit is disconnected.
On the contrary, when it is "OFF", the lower circuit is connected and the upper circuit is disconnected.
When switch B is "ON", the upper circuit is disconnected and the lower circuit is connected.
On the contrary, when it is "OFF", the lower circuit is disconnected and the upper circuit is connected.
If the A and B switches are combined as shown in the figure, no current will flow and the light bulb will not turn on, when both A and B are "ON" or both are "OFF".
The circuit is connected and the light bulb is turned on only when A and B do not match, such as A is “ON” and B is “OFF”.
As shown in the truth table, the output Y is 1 when 1 is input to either of A and B.
The schematic can be expressed by the MIL symbol as shown in the right figure.
* Abbreviation for Exclusive OR
