Texas TI TLV70433DBVR 24-V input voltage SOT-23 3.3V 160mA ultra-low IQ low dropout voltage regulator advantage product original spot import hot sale

Rohs Lead free / RoHS Compliant

Standard package 3,000

Regulator Topology Positive Fixed

Voltage - output power 3.3V

Voltage - Input 2.5 V ~ 24 V

- Dropout Voltage (Typical) 0.85V @ 100mA

Number of regulators1

Current - Output power 150mA (Max)

Current - Limit (Min) 160mA

Operating temperature -40°C ~ 125°C

Mounting Type Surface Mount

Bag/Box SC-74A, SOT-753

Supplier Device Package SOT-23-5

Packaging Tape & Reel (TR)

Packaging 5SOT-23

Polar Positive

output number 1

Minimum input voltage 2.5 V

Maximum input voltage 24 V

Maximum output current 0.15 A

Output voltage 1.2 to 5 V

Maximum power dissipation 470 mW

Typical dropout voltage@current0.075@10mA|0.4@50mA|0.85@0.1AV

Accuracy ±2 %_Line Adjust 50 mV

Load Regulation 75 mV

Maximum quiescent current 0.0045 mA

Operating temperature -40 to 125 °C

Install the Surface Mount

output type Adjustable

Standard Packaging Tape & Reel

Typical Leakage Voltage@Current0.075@10mA|0.4@50mA|0.85@0.1A

Packaging width 1.75(Max)

PCB 5

Minimum input voltage 2.5

Maximum Power Dissipation 470

TypeLDO

EU RoHS Directive Compliant

Minimum operating temperature -40

Supplier Package SOT-23

Standard package name SOT-23

Maximum operating temperature 125

Packing length 3.05(Max)

Special FeaturesCurrent Limit|Thermal Protection

Number of pins 5

Maximum Dropout Voltage @ Current 1.1@100mA

Maximum quiescent current 0.0045

Packaging height 1.3(Max)

Output voltage 1.2 to 5

Package Tape and_Reel

Maximum output current 0.15

Accuracy ±2

Maximum input voltage 24

Lead Shape Gull-wing

Regulator Topology Positive Fixed

Mounting Type Surface Mount

Number of regulators 1

Current - Limit (Min) 160mA

Supplier Equipment Package SOT-23-5

Voltage - Output 3.3V

Voltage - Dropout (Standard) 0.85V @ 100mA

Current - Output 150mA (Max)

Package/Enclosure SC-74A, SOT-753

Voltage - Voltage Up to 24V

RoHS Directive Lead free / RoHS Compliant

Factory packing quantity 3000

Product CategoryLDO Voltage Regulators

Output current 150 mA

PSRR/Ripple Rejection - Typical Ratio 60 dB

Series TLV70433

Installation style SMD/SMT

Maximum input voltage 24 V

Minimum Operating Temperature - 40 C

Dropout Voltage - 1100 mV max

Maximum operating temperature + 125 C

RoHS RoHS Compliant

Input voltage min. 24 V

Power dissipation 470 W

Operating temperature range -40C to 125C

Regulator Output Type Adjustable

Voltage Regulator Type Linear

Packaging Type SOT-23

Polar type Positive

Output Voltage Accuracy ?2 %_Operating Temperature ClassificationAutomotive

Input voltage 24 V

Input voltage (minimum) 2.5 V

Quiescent current (max) 0.0045 mA

Topology LDO

Arc hardeningNo

Leakage voltage@current (max) 1.1@100mA

Hong Kong Xinrui guarantees original imported spot

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Xinrui Electronics (Hong Kong) Co., Ltd., 18 years of professional component distributors (authorized and non-authorized brands), one-stop terminal manufacturer support: (quality assurance and integrity management) is the company's commitment to provide customers with brand original semiconductors, electronics Component terminal supporting market, focusing on ESD/TVS electrostatic protection diodes, LDO low-power voltage regulators, MOS tubes, battery charging and management power supplies, LEDs, optocouplers, resistors and capacitors, PCB solutions (wireless Bluetooth solutions, One-stop Bluetooth sports solution, speaker, wireless power bank).

Main products: ESD electrostatic diodes, TVS diodes, battery charging and management power supplies, MOS tubes, LDO low-power voltage regulators.

Company: Xinrui Electronics (Hong Kong) Co., Ltd.

Contact: Miss Yao

Mobile: 13725590222

Tel: 0755-83780666/83265111

Fax: 0755-82800889

QQ:3373563833

Address: 26B, Block B, Huaqiang Plaza, Futian North Road, Futian District, Shenzhen

Company website: www.xrdz-hk.com

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According to Taiwan media reports, the patent war between Qualcomm and Apple is intensifying, and it is bound to continue from 2018 to 2019. Jim McGregor, chief analyst of Tirias Research, said bluntly that with the The "tit for tat" continues to heat up, fearing that the fate of the entire wireless industry will be in crisis.

According to Taiwan's "China Times" report on December 27, 2018, the patent war between Apple and Qualcomm is continuing to heat up. McGregor pointed out that in fact, the focus of the dispute between the two sides is on the licensing model of intellectual property (IP), as well as with wireless Industry-related licensing rates, this is not just a war between Apple and Qualcomm, but the entire wireless industry, as a leading innovator and IP licensor, "Qualcomm is neither the first nor the last. The company that became Apple's target.

The report quoted McGregor as saying that patents represent IP, which in many cases is reserved exclusively as a competitive threshold and is not easily licensed to other companies. Therefore, if the IP is violated, the holder can seek compensation or take other actions through legal means. In some cases, IP holders are willing to make their IP available to anyone for free, usually to establish an open-source hardware or software standard, while in other cases, IP holders choose to license the IP to A specific part of the value chain or possibly all parts of the value chain.

According to the report, in the case of the semiconductor industry, IP is usually licensed to semiconductor suppliers by the IP holder, however, in the wireless industry, IP is licensed to ODMs or OEMs, mainly end-device manufacturers, including smart Mobile phones and automobiles, etc. This licensing model was pioneered by early wireless suppliers such as Ericsson, Motorola and Nokia. However, the wireless industry has changed over the years.

According to the report, McGregor said that the average smartphone may use up to millions of patents, ranging from wireless network technology used for communication to user interfaces and apps implemented on the phone, and more importantly, it allows any In the semiconductor industry, anyone can innovate on the most popular computing and communications platform in the world today, allowing any semiconductor company to enter the market without fear of retaliation from IP holders or competitors.

According to the report, in the early stage of the development of smart phones, Texas Instruments was one of the leading manufacturers in the field of mobile SoC (system-on-chip), and there were more than a dozen semiconductor companies actively entering this market. Chaowei and Deyi have gradually withdrawn from the market, while other players such as MediaTek and several mainland startups have begun to enter the market. Apple, Huawei and Samsung have also begun to design their own SoCs. At the same time, the performance of mobile SoCs has already Progressing to the point of approaching PC processors, with wireless interfaces reaching or exceeding wired interfaces, smartphones have become the primary device for more than half of the world's population to provide applications such as photography, video recording, playing games, watching videos, electronic communication, and social networking.

According to reports, Apple pays licensing fees through its IP partners, especially SEP, and according to Tilias Research estimates, Apple pays all IP holders less than 20% of the hundreds of patent royalties per iPhone. Dollar. This means that the cost of the iPhone X accounts for less than 2% of the company's multi-billion-dollar R&D investment, and these proportions will decrease over time, even as the overall patent pool increases. However, every time Apple makes IP A $1 reduction in costs can bring in more than $200 million in annual profits. Apple has also lodged complaints with global regulators seeking to change the licensing model to push semiconductor IP licensing to chip suppliers rather than OEMs, which could force all IP holders to license directly to the rest of the smartphone value chain Significant reductions in licensing costs and changes in licensing models could have a huge impact on the wireless market as a whole, rather than focusing entirely on end devices in particular segments.