STMicroelectronics VND830LSP
- Part Number:
- VND830LSP
- Manufacturer:
- STMicroelectronics
- Ventron No:
- 3743319-VND830LSP
- Description:
- IC DRIVR DUAL 36V 18A POWERSO-10
- Datasheet:
- VND830LSP
STMicroelectronics VND830LSP technical specifications, attributes, parameters and parts with similar specifications to STMicroelectronics VND830LSP.
- MountSurface Mount
- Mounting TypeSurface Mount
- Package / CasePowerSO-10 Exposed Bottom Pad
- Number of Pins12
- Operating Temperature-40°C~150°C TJ
- PackagingTube
- SeriesVIPower™
- JESD-609 Codee3
- FeatureAuto Restart
- Pbfree Codeyes
- Part StatusObsolete
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Number of Terminations10
- ECCN CodeEAR99
- Resistance60mOhm
- Terminal FinishMatte Tin (Sn) - annealed
- SubcategoryPeripheral Drivers
- Max Power Dissipation74W
- Terminal PositionDUAL
- Terminal FormGULL WING
- Number of Functions1
- Supply Voltage13V
- Base Part NumberVND830
- Pin Count10
- JESD-30 CodeR-PDSO-G10
- Number of Outputs2
- Output TypeN-Channel
- Max Output Current23A
- Operating Supply Voltage36V
- Power Supplies13V
- InterfaceOn/Off
- Current - Output (Max)18A
- Nominal Supply Current12μA
- Output ConfigurationHigh Side
- Power Dissipation74W
- Output Current23A
- Voltage - Supply (Vcc/Vdd)Not Required
- Max Supply Current12μA
- Input TypeNon-Inverting
- Switch TypeGeneral Purpose
- Min Input Voltage5.5V
- Max Input Voltage36V
- Ratio - Input:Output1:1
- Voltage - Load5.5V~36V
- Driver Number of Bits2
- Fault ProtectionCurrent Limiting (Fixed), Open Load Detect, Over Temperature, Over Voltage
- Output Peak Current Limit-Nom23A
- Rds On (Typ)60m Ω (Max)
- Built-in ProtectionsOVER CURRENT; OVER VOLTAGE; UNDER VOLTAGE
- Height Seated (Max)3.75mm
- Length9.4mm
- Width7.5mm
- Radiation HardeningNo
- RoHS StatusNon-RoHS Compliant
VND830LSP Overview
STMicroelectronics is a well-known brand in the electronics industry, and one of its latest products is a PMIC - Power Distribution Switches, Load Drivers chip. This chip falls under the PMIC - Power Distribution Switches, Load Drivers category, making it a crucial component for power management in various electronic devices. With 12 pins, this chip offers a compact and efficient solution for power distribution and load driving. One of the key factors to consider when choosing a PMIC chip is its operating temperature. The STMicroelectronics chip has an impressive temperature range of -40°C to 150°C TJ, making it suitable for use in a wide range of environments. This parameter ensures that the chip can function reliably even in extreme temperature conditions, making it a reliable choice for various applications. In terms of regulatory compliance, the STMicroelectronics chip has an ECCN Code of EAR99. This code indicates that the chip is not subject to any export control restrictions, making it easier for manufacturers to incorporate it into their products without any legal barriers. This is an important consideration for companies that operate globally and need to adhere to different regulations in different countries. Another important parameter for a PMIC chip is its resistance. The STMicroelectronics chip has a resistance of 60mOhm, which is relatively low and ensures efficient power distribution and load driving. This feature is crucial for maintaining the overall performance and longevity of electronic devices. The maximum power dissipation of the chip is another important aspect to consider. With a maximum power dissipation of 74W, the STMicroelectronics chip can handle high power loads without overheating or malfunctioning. This makes it a reliable choice for devices that require high power consumption. Furthermore, the chip has two outputs, providing flexibility for various power distribution needs. It also does not require a specific voltage supply (Vcc/Vdd), making it compatible with a wide range of devices. The minimum input voltage of 5.5V ensures that the chip can operate efficiently even with lower power inputs. Lastly, the ratio of input to output is 1:1, indicating that the chip can handle equal amounts of input and output power, ensuring balanced power distribution. The Rds On (Typ) of 60mΩ (Max) further highlights the efficiency of the chip in managing power distribution and load driving. In conclusion, the STMicroelectronics PMIC chip offers a reliable and efficient solution for power management in electronic devices. With its compact design, wide operating temperature range, and impressive parameters such as resistance, power dissipation, and input/output ratio, it is a top choice for manufacturers looking for high-quality PMIC chips.
VND830LSP Features
Supplied from 13V
Resistance of 60mOhm
VND830LSP Applications
There are a lot of STMicroelectronics VND830LSP Power Switches ICs applications.
PC Card Hot Swap
USB Power Distribution
Storage Drives
USB3.1 Power Delivery
Hot Swaps
Notebook PC
PC Cards
Wireless/Networking Cards
Handheld Devices
Hot Swap
STMicroelectronics is a well-known brand in the electronics industry, and one of its latest products is a PMIC - Power Distribution Switches, Load Drivers chip. This chip falls under the PMIC - Power Distribution Switches, Load Drivers category, making it a crucial component for power management in various electronic devices. With 12 pins, this chip offers a compact and efficient solution for power distribution and load driving. One of the key factors to consider when choosing a PMIC chip is its operating temperature. The STMicroelectronics chip has an impressive temperature range of -40°C to 150°C TJ, making it suitable for use in a wide range of environments. This parameter ensures that the chip can function reliably even in extreme temperature conditions, making it a reliable choice for various applications. In terms of regulatory compliance, the STMicroelectronics chip has an ECCN Code of EAR99. This code indicates that the chip is not subject to any export control restrictions, making it easier for manufacturers to incorporate it into their products without any legal barriers. This is an important consideration for companies that operate globally and need to adhere to different regulations in different countries. Another important parameter for a PMIC chip is its resistance. The STMicroelectronics chip has a resistance of 60mOhm, which is relatively low and ensures efficient power distribution and load driving. This feature is crucial for maintaining the overall performance and longevity of electronic devices. The maximum power dissipation of the chip is another important aspect to consider. With a maximum power dissipation of 74W, the STMicroelectronics chip can handle high power loads without overheating or malfunctioning. This makes it a reliable choice for devices that require high power consumption. Furthermore, the chip has two outputs, providing flexibility for various power distribution needs. It also does not require a specific voltage supply (Vcc/Vdd), making it compatible with a wide range of devices. The minimum input voltage of 5.5V ensures that the chip can operate efficiently even with lower power inputs. Lastly, the ratio of input to output is 1:1, indicating that the chip can handle equal amounts of input and output power, ensuring balanced power distribution. The Rds On (Typ) of 60mΩ (Max) further highlights the efficiency of the chip in managing power distribution and load driving. In conclusion, the STMicroelectronics PMIC chip offers a reliable and efficient solution for power management in electronic devices. With its compact design, wide operating temperature range, and impressive parameters such as resistance, power dissipation, and input/output ratio, it is a top choice for manufacturers looking for high-quality PMIC chips.
VND830LSP Features
Supplied from 13V
Resistance of 60mOhm
VND830LSP Applications
There are a lot of STMicroelectronics VND830LSP Power Switches ICs applications.
PC Card Hot Swap
USB Power Distribution
Storage Drives
USB3.1 Power Delivery
Hot Swaps
Notebook PC
PC Cards
Wireless/Networking Cards
Handheld Devices
Hot Swap
VND830LSP More Descriptions
Buffer/Inverter Based Peripheral Driver, 2 Driver, 23A, PDSO10
Power Switch Hi Side 23A 12-Pin(10 2Tab) PowerSO Tube
Power Switch ICs - Power Distribution DOUBLE CHNL HS DRV
Double-channel high-side driver
IC DRIVR DUAL 36V 18A POWERSO-10
IC PWR DRIVER N-CHAN 1:1 PWRSO10
Tube VND830 Current Limiting (Fixed) Open Load Detect Over Temperature Over Voltage e3 power distribution switch 9.4mm 36V 18A 74W
Power Switch Hi Side 23A 12-Pin(10 2Tab) PowerSO Tube
Power Switch ICs - Power Distribution DOUBLE CHNL HS DRV
Double-channel high-side driver
IC DRIVR DUAL 36V 18A POWERSO-10
IC PWR DRIVER N-CHAN 1:1 PWRSO10
Tube VND830 Current Limiting (Fixed) Open Load Detect Over Temperature Over Voltage e3 power distribution switch 9.4mm 36V 18A 74W
The three parts on the right have similar specifications to VND830LSP.
-
ImagePart NumberManufacturerMountMounting TypePackage / CaseNumber of PinsOperating TemperaturePackagingSeriesJESD-609 CodeFeaturePbfree CodePart StatusMoisture Sensitivity Level (MSL)Number of TerminationsECCN CodeResistanceTerminal FinishSubcategoryMax Power DissipationTerminal PositionTerminal FormNumber of FunctionsSupply VoltageBase Part NumberPin CountJESD-30 CodeNumber of OutputsOutput TypeMax Output CurrentOperating Supply VoltagePower SuppliesInterfaceCurrent - Output (Max)Nominal Supply CurrentOutput ConfigurationPower DissipationOutput CurrentVoltage - Supply (Vcc/Vdd)Max Supply CurrentInput TypeSwitch TypeMin Input VoltageMax Input VoltageRatio - Input:OutputVoltage - LoadDriver Number of BitsFault ProtectionOutput Peak Current Limit-NomRds On (Typ)Built-in ProtectionsHeight Seated (Max)LengthWidthRadiation HardeningRoHS StatusFactory Lead TimeLead FreePeak Reflow Temperature (Cel)Reflow Temperature-Max (s)Supply Voltage-Max (Vsup)Turn On Delay TimeOutput Current per ChannelNominal Input VoltageTurn-Off Delay TimeNumber of DriversHeightTechnologyView Compare
-
VND830LSPSurface MountSurface MountPowerSO-10 Exposed Bottom Pad12-40°C~150°C TJTubeVIPower™e3Auto RestartyesObsolete1 (Unlimited)10EAR9960mOhmMatte Tin (Sn) - annealedPeripheral Drivers74WDUALGULL WING113VVND83010R-PDSO-G102N-Channel23A36V13VOn/Off18A12μAHigh Side74W23ANot Required12μANon-InvertingGeneral Purpose5.5V36V1:15.5V~36V2Current Limiting (Fixed), Open Load Detect, Over Temperature, Over Voltage23A60m Ω (Max)OVER CURRENT; OVER VOLTAGE; UNDER VOLTAGE3.75mm9.4mm7.5mmNoNon-RoHS Compliant-------------
-
Surface MountSurface MountPowerSO-10 Exposed Bottom Pad10-40°C~150°C TJTape & Reel (TR)VIPower™---Active3 (168 Hours)-EAR9960mOhm--74W----VND83010-2N-Channel10A--On/Off-7mAHigh Side74W6ANot Required-Non-InvertingGeneral Purpose--1:15.5V~36V-Current Limiting (Fixed), Over Temperature, Over Voltage-60m Ω (Max)----NoROHS3 Compliant42 WeeksLead Free----------
-
Surface MountSurface MountPowerSO-10 Exposed Bottom Pad10-40°C~150°C TJTape & Reel (TR)VIPower™e3Auto Restart-Active3 (168 Hours)10EAR9960mOhmMatte Tin (Sn) - annealedPeripheral Drivers73.5WDUALGULL WING213VVND83010--N-Channel9A13V8/36VOn/Off-5mAHigh Side73.5W6ANot Required-Non-InvertingGeneral Purpose--1:15.5V~36V-Current Limiting (Fixed), Open Load Detect, Over Temperature, Over Voltage9A60m Ω (Max)TRANSIENT; OVER CURRENT; OVER VOLTAGE; THERMAL; UNDER VOLTAGE-9.4mm7.5mmNoROHS3 Compliant18 WeeksLead Free2503036V30 μs6A13V30 μs23.75mm-
-
Surface MountSurface Mount16-SOIC (0.295, 7.50mm Width)16-40°C~150°C TJTape & Reel (TR)VIPower™e0Auto Restart, Status FlagnoObsolete3 (168 Hours)16EAR9960mOhmTIN LEADPeripheral Drivers8.3WDUALGULL WING113VVND83016-2N-Channel6A36V-On/Off-12μAHigh Side8.3W9ANot Required12μANon-InvertingGeneral Purpose5.5V36V1:15.5V~36V2Current Limiting (Fixed), Open Load Detect, Over Temperature, Over Voltage9A60m Ω (Max)TRANSIENT; OVER CURRENT; OVER VOLTAGE; THERMAL; UNDER VOLTAGE-10.3mm7.5mmNoROHS3 Compliant-----------MOS
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
03 April 2024
ADUM1201BRZ-RL7 Alternatives, Specifications, Application and More
Ⅰ. Overview of ADUM1201BRZ-RL7Ⅱ. Specifications of ADUM1201BRZ-RL7Ⅲ. Propagation delay-related parametersⅣ. Application of ADUM1201BRZ-RL7Ⅴ. How to evaluate the performance of ADUM1201BRZ-RL7?Ⅵ. Functional block diagram of ADUM1201BRZ-RL7Ⅶ. PCB layout of... -
03 April 2024
SG3525 PWM IC Characteristics, Internal Structure, Working Principle and SG3525 vs SG3524
Ⅰ. Description of SG3525Ⅱ. Characteristics of SG3525Ⅲ. Internal structure and working principle of SG3525Ⅳ. Representative block diagram of SG3525Ⅴ. Application circuit of SG3525Ⅵ. How to adjust the frequency... -
07 April 2024
ATMEGA16A-AU Microcontroller: Characteristics, Structure, Technical Parameters and Package
Ⅰ. ATMEGA16A-AU overviewⅡ. Characteristics of ATMEGA16A-AUⅢ. Structure and functions of ATMEGA16A-AUⅣ. Technical parameters of ATMEGA16A-AUⅤ. Power consumption management of ATMEGA16A-AUⅥ. Application of ATMEGA16A-AUⅦ. ATMEGA16A-AU packageⅧ. How to build... -
07 April 2024
BTS5030-1EJA Alternatives, Specification, Pinout, Features and Application
Ⅰ. BTS5030-1EJA overviewⅡ. BTS5030-1EJA specificationⅢ. Protection function of BTS5030-1EJAⅣ. Features of BTS5030-1EJAⅤ. How does BTS5030-1EJA realize real-time monitoring of the working status of the circuit?Ⅵ. BTS5030-1EJA pinout and...
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.