| Image | Part # | Description |
|---|---|---|
 |
Mfr.#: MAX14699EWC+T OMO.#: OMO-MAX14699EWC-T |
Supervisory Circuits Fast Response, High Accuracy Overvoltage Protector with Surge Protection 13.25V |
 |
Mfr.#: TPS389033GQDSERQ1 OMO.#: OMO-TPS389033GQDSERQ1 |
Supervisory Circuits SVS |
|
Mfr.#: TPS389050LQDSERQ1 OMO.#: OMO-TPS389050LQDSERQ1 |
Supervisory Circuits SVS- WITH 4.6V FIXED THRESHOLD |
|
Mfr.#: TPS389050GQDSERQ1 OMO.#: OMO-TPS389050GQDSERQ1 |
Supervisory Circuits SVS WITH FIXED 4.65 THRESHOLD VOLTAGE |
|
Mfr.#: TPS3710QDSERQ1 OMO.#: OMO-TPS3710QDSERQ1 |
Supervisory Circuits Automotive Wide-VIN 18V Voltage Detector |
|
Mfr.#: TPS389033KQDSERQ1 OMO.#: OMO-TPS389033KQDSERQ1 |
Supervisory Circuits SVS |
 |
Mfr.#: MAX6495ATT/V+ OMO.#: OMO-MAX6495ATT-V- |
Supervisory Circuits 72V, Overvoltage-Pr |
 |
Mfr.#: MAX17561AUD+ OMO.#: OMO-MAX17561AUD- |
Supervisory Circuits Adjustable Protector |
 |
Mfr.#: MAX16020PTET+ OMO.#: OMO-MAX16020PTET- |
Supervisory Circuits LoPwr Microprocessor Supervisory Circuit |
|
Mfr.#: MAX17562AUD+ OMO.#: OMO-MAX17562AUD- |
Supervisory Circuits Adjustable Protector |
ZR
The goods came over 1 week due to I require the seller to send the cheapest way like EMS. Even the order is small, but they work professional. Thanks so much.
LV
As a purchaser all I need is just good quality product and reasonable price. I found this company and they can require my entire requirement. That's fantastic and recommend.
LS
When I search an obsolete part No. and come out this website. This website looks professional and reliable. I make payment and get the goods very soon. Will buy again.
US
I Only buy parts from trusted sources like OMO follow a strict Quality Management System.
US
I used to buy from TME or vertical, but when I found out about OMO, I became their long-term customer.
US
I ’m from the UK and I currently run a repair shop. Over the past few months, I ’ve been buying parts through OMO, which helped me repair the equipment in time.
HU
Great quality item, excellent Seller. I tested at 20V input voltage, output voltage was set to 5V. Stand by current is below 1mA. Loaded with 200mA, the input current is 61mA, efficiency is around 83%, which is very good. Decreasing the input voltage to 12V the efficiency is around 90% ([email protected] load). Highly recommended!
RU
Did not check
FR
Description conforme
RU
It's okay.