ActiveBOM is a powerful Bill of Materials management editor that brings comprehensive BOM management tools together with Altium's powerful part-information aggregation technologies, helping you manage the component selection challenge.
ActiveBOM is a powerful Bill of Materials management editor that brings comprehensive BOM management tools together with Altium's powerful part-information aggregation technologies, helping you manage the component selection challenge.
Nowadays, component supply chain issue is quite common and designers need to do component cross referencing from different suppliers. Here are a list of cross reference component search websites from manufacture and others.
If you guys have more useful links, please leave it in comment session.
Other Sites
https://octopart.com/?gclid=EAIaIQobChMI6OKQw5y49wIVcZNmAh1mqwCpEAAYASAAEgLvivD_BwE
https://partcross.com/semiconductor-manufacturers/Atmel/
http://ebook.pldworld.com/_Semiconductors/Atmel/Databook%20CDROM/Atmel/xref2.htm
https://gct.co/connector-cross-reference
http://www.cross-parts.com/news/shortcut/shortcut-data/L23.html
https://clockworks.microchip.com/microchip/crossref
http://www.cross-parts.com/news/M_search.php?nWord=NEC
https://www.we-online.com/web/en/electronic_components/produkte_pb/toolbox_pbs/Cross_Reference_1.php
It is good to know the difference between Lux and Lumens if you are designing lighting products.
The core difference can be summarized as follows:
- Lux is a measure of illuminance, the total amount of light that falls on a surface
- Lumens is a measure of luminous flux, the total amount of light emitted in all directions.
eFuses are integrated power path protection devices that are used to limit circuit currents, voltages to safe levels during fault conditions. eFuses offer many benefits to the system and can include protection features that are often difficult to implement with discrete components. Discrete solutions are bulky, inefficient, do not incorporate thermal protection, need more components and occupy more board space. More components also raise concerns on protection-circuit robustness and reliability.
Different types of eFuses are available in the market. Here
is one of my favorite eFuses, TPS259271 from TI.
This chip is a robust defence against overloads, shorts
circuits, voltage surges, excessive inrush current, and reverse current. It
also offers Controlled Power Down, Over Temperature Protection, Health
Monitoring and Reporting.
What
is an electronic load?
An electronic load is a test instrument designed to sink current and absorb power out of a power source. If a power supply is used to power a device, an electronic load is used to test the power supply by emulating the device under test (DUT).
An electronic load is a programmable
instrument that offers the user various modes of control such as constant voltage
(CV), constant current (CC), constant power (CP) or constant resistance (CR).
Who
uses electronic loads?
Device manufacturers and
design engineers use electronic loads to test numerous power devices such as
power supplies, DC-DC converters, chargers, adapters, batteries, solar panels,
fuel-cells, and more.
Why
do engineers use electronic loads instead of a fixed value power resistor?
In situations where you need a purely resistive load and no closed loop control is required, it is sufficient to use a fixed value power resistor. A fixed value resistor presents many limitations. It is not adequate for loading and testing power sources that have complex testing requirements. Such tasks require sophisticated electronic load features to validate the various states of operation.
Constant
current operation mode
Constant current (CC) is the
most frequent mode in which an electronic load is used. In constant current
mode, the load will sink the programmed current independently from the output
voltage which is typically forced by the voltage source connected to it (for example
a battery).
Constant
voltage operation mode
In constant voltage (CV) mode
the electronic load sets a fixed programmable voltage across its terminals
independently from the input current. In CV mode, the current is set by the
current source connected to it – for example, a current charging circuit or a LED
current driver. The load adjusts its resistance dynamically to attain the
programmed voltage at any current established by the current source under test.
Constant
resistance operation
In constant resistance (CR)
mode, the load acts as a fixed programmable power resistor. An electronic
load’s CR mode is well-suited for loading a power source that is either a voltage
or current source. When the load connects to a voltage source it sinks a
current equal to the source potential divided by the programmed resistance
value.
This ultra-precise current sense amplifier that can measure voltage drops across shunt resistor, R1 over a wide common mode range from 2....