Features
- Maximum ratings Power-supply voltage Vcc: 24 V Operating junction temperature Tjopr: – 40 to 150°C
- Electrical characteristics VREF output voltage VREF: 5.0 V ± 1.6% UVLO operation start voltage VH: 10.4 ± 0.7 V UVLO operation stop voltage VL: 8.9 ± 0.5 V PFC output maximum ON duty Dmax-out: 95% (typ.)
- Functions Constant power limit function Continuous conduction mode Hold function of PFC operation on momentary outage (PFC hold function) Overvoltage detection Overcurrent detection Soft start Feedback loop disconnection detection IC shutdown function Dynamic OVP (Over Voltage Protection) Package lineup: SOP-16"
- Flat panel display
Description
Support is limited to customers who have already adopted these products.
R2A20115 is a power-factor correction (PFC) controller IC, which employs continuous conduction mode as PFC control mode. Various kinds of functions such as constant power limit, overvoltage detection, overcurrent detection, soft start function, feedback-loop open detection, and the function holding its operation through momentary outage (PFC hold function) are incorporated in a single chip. These functions reduce external circuitry. The constant power limit function significantly reduces coil vibration, which is caused by the operation of a conventional overcurrent detection circuit when the system is overloaded. The PFC hold function enables quick recovery by keeping PFC operation active for a certain duration (hold time) during momentary outage/power failure. The hold time can be adjusted by an external capacitor. This IC provides the separated pin used for detecting overcurrent, so that, the preset current value range for overcurrent detection becomes wider than before. The shutdown function with latch mode is also implemented. A soft-start control pin is provided for the easy adjustment of soft-start operation. And also the dynamic over voltage protection function integrated in this IC reduces overshooting of the output voltage, which might occur for the duration of startup, recovery after momentary power failure and just after a sudden variation of a load.
| Part Number | Status | Samples | Stock | RoHS | Package |
|---|---|---|---|---|---|
| R2A20115SP#U0 | Obsolete | N/A | In Stock | RoHS:EN RoHS:JA | SOP |
| R2A20115SP#W0 | Obsolete | N/A | Out of Stock | RoHS:EN RoHS:JA | SOP |
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- Product Change Notice
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- Application NotePDF 1.3 MB R19AN0015ED0102 Rev.1.02 Jul 01, 2013AI-generated Summary: The document provides layout recommendations and design rules for a dual port Ethernet PHY device supporting 10Base-T, 100Base-TX, and 100Base-FX. It covers strap pin configuration options for initial start-up settings, detailing the use of pull-up and pull-down resistors, including recommended resistor values and schematic examples. The strap pins function only during power-up or reset, with internal and external resistor configurations advised for noise immunity. Additional chapters address media interfaces, power supply layout, clock input, LED control, and unused pins.
- Application NotePDF 1.21 MB R19AN0014ED0102 Rev.1.02 Jul 01, 2013AI-generated Summary: The document provides layout recommendations and design rules for Dual PHY and Single Channel PHY ASSP devices. It covers strap pin configuration options for initial start-up settings, including pull-up and pull-down resistor values and configurations to ensure stable operation in noisy environments. The layout guidelines include power supply design, differential pair routing, media-dependent interfaces, MAC interfaces, and clock input circuits. Examples and tables illustrate resistor values and schematic configurations for strap pins.
- Application NotePDF 224 KB R03AN0009EJ0100 Rev.1.00 Feb 22, 2012AI-generated Summary: The document explains the internal functions of the R2A20112A IC, focusing on its UVLO block which prevents operation under low voltage, and the 5 V reference voltage used internally. It details the Error Amplifier that stabilizes PFC output voltage, the Zero Current Detection circuit essential for CRM operation, and the RAMP generator that controls PWM ON time using external components. The drive stage outputs pulses to power MOSFETs with specific peak current capabilities and includes driver circuit examples for different MOSFET gate charges.
- Application NoteAI-generated Summary: The built-in oscillator frequency depends on an external resistor and a 10 pF capacitor, with a maximum 50% duty cycle at 48 kHz. The oscillator charges and discharges the capacitor between 0.2 V and 2 V. The error amplifier uses a transconductance amplifier to regulate output based on feedback voltage. The output pin drives an external MOSFET with up to 900 mA peak current. The peak current control circuit maintains constant inductor current using overcurrent protection via the CS pin. The constant ON time control uses feedback from the FB pin to regulate inductor current, adjusting peak current proportionally to input voltage for power factor correction.
- Application NotePDF 397 KB an1684 Jan 19, 2004AI-generated Summary: The document outlines important legal disclaimers and usage guidelines for semiconductor products. It emphasizes user responsibility for product design and safety, disclaims liability for damages, and clarifies no intellectual property licenses are granted. Products are categorized by quality grades with specific application recommendations. Users must comply with laws, avoid unauthorized modifications, and ensure safe use within specified conditions. Contact details for Renesas Electronics sales offices worldwide are provided.
- Application NotePDF 509 KB an1681 Jan 19, 2004AI-generated Summary: The document explains grounding techniques for PCB layouts using a dual op amp example on a single-layer copper board. It compares three grounding schemes: a center spine ground trace, an outer ground plane, and a split/star ground plane, highlighting the benefits of single-point grounding to minimize noise and antenna effects. It emphasizes following current paths, minimizing loop lengths, and ensuring close forward and return paths to reduce interference. The document also includes disclaimers on product use, quality grades, safety, and legal compliance.
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Datasheets (1)
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- Application NotePDF 1.3 MB R19AN0015ED0102 Rev.1.02 Jul 01, 2013AI-generated Summary: The document provides layout recommendations and design rules for a dual port Ethernet PHY device supporting 10Base-T, 100Base-TX, and 100Base-FX. It covers strap pin configuration options for initial start-up settings, detailing the use of pull-up and pull-down resistors, including recommended resistor values and schematic examples. The strap pins function only during power-up or reset, with internal and external resistor configurations advised for noise immunity. Additional chapters address media interfaces, power supply layout, clock input, LED control, and unused pins.
- Application NotePDF 1.21 MB R19AN0014ED0102 Rev.1.02 Jul 01, 2013AI-generated Summary: The document provides layout recommendations and design rules for Dual PHY and Single Channel PHY ASSP devices. It covers strap pin configuration options for initial start-up settings, including pull-up and pull-down resistor values and configurations to ensure stable operation in noisy environments. The layout guidelines include power supply design, differential pair routing, media-dependent interfaces, MAC interfaces, and clock input circuits. Examples and tables illustrate resistor values and schematic configurations for strap pins.
- Application NotePDF 224 KB R03AN0009EJ0100 Rev.1.00 Feb 22, 2012AI-generated Summary: The document explains the internal functions of the R2A20112A IC, focusing on its UVLO block which prevents operation under low voltage, and the 5 V reference voltage used internally. It details the Error Amplifier that stabilizes PFC output voltage, the Zero Current Detection circuit essential for CRM operation, and the RAMP generator that controls PWM ON time using external components. The drive stage outputs pulses to power MOSFETs with specific peak current capabilities and includes driver circuit examples for different MOSFET gate charges.
- Application NoteAI-generated Summary: The built-in oscillator frequency depends on an external resistor and a 10 pF capacitor, with a maximum 50% duty cycle at 48 kHz. The oscillator charges and discharges the capacitor between 0.2 V and 2 V. The error amplifier uses a transconductance amplifier to regulate output based on feedback voltage. The output pin drives an external MOSFET with up to 900 mA peak current. The peak current control circuit maintains constant inductor current using overcurrent protection via the CS pin. The constant ON time control uses feedback from the FB pin to regulate inductor current, adjusting peak current proportionally to input voltage for power factor correction.
- Application NotePDF 397 KB an1684 Jan 19, 2004AI-generated Summary: The document outlines important legal disclaimers and usage guidelines for semiconductor products. It emphasizes user responsibility for product design and safety, disclaims liability for damages, and clarifies no intellectual property licenses are granted. Products are categorized by quality grades with specific application recommendations. Users must comply with laws, avoid unauthorized modifications, and ensure safe use within specified conditions. Contact details for Renesas Electronics sales offices worldwide are provided.View More (6)
Application Notes & White Papers (6)
- Product Change Notice
- Product Change Notice
- Product Change Notice
Product Notices (PCN, EOL, etc) (3)
- Technical Update
- Technical Update
Errata & Technical Updates (2)
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