This reference design targets applications requiring smaller form factor and low-power consumption. The design is based on TI's IWRL6432W, 60GHz mmWave radar device and uses a four-layer PCB stack-up with FR408HR material from Isola®. The reference design also has a smaller form-factor counterpart (...) View design
This ultrasound transmission reference design uses TI's TX7516 five-level pulse transmitter and the high-voltage TMUX9832 switch. The transmitter and switch are connected in a 1:4 manner to address the compact hardware design requirements for high channel count ultrasonic analog front end systems. (...) View design
This reference design illustrates a 12V, 4kW input power path protection system for data center servers, using six TPS25985 eFuse devices in parallel. The TPS25985x is a compact, package-integrated, parallelizable, high-current circuit protection and power management device. The primary goal of (...) View design
This reference design demonstrates a low-noise, efficient, bidirectional power supply that achieves less than ±0.02% full-scale (FS) current and voltage control accuracy. The design utilizes an analog feedback loop for precise current control and implements a voltage tracking circuit to minimize (...)
This reference design features a dual-phase automotive boost converter for Class-H audio applications offering analog or digital output voltage tracking. The peak output power of over 800W can be achieved at 11V input voltage.
This test report is based on the LM5125-Q1, which is configured using (...)
This reference design is a full-bridge topology that is comprised of a TPS7H5005-SEP referenced on secondary ground that controls three TPS7H6005-SEP half-bridge gate drivers. The two drivers referenced to the primary side operate in pulse width modulation (PWM) mode which allows for the design to (...) View design
This reference design showcases a primary-side regulation (PSR) flyback converter based on the LM5185-Q1. The design offers three isolated output windings, and delivers up to 19W in total from a 6V to 27V input voltage range. View design
This reference design showcases a primary-side regulation (PSR) flyback converter based on the LM5185-Q1. The design offers three isolated output windings, and delivers up to 19W in total from a 6V to 27V input voltage range. View design
This reference design showcases a primary-side regulation (PSR) flyback converter based on the LM5185-Q1. The design offers three isolated output windings, and delivers up to 19W in total from a 6V to 27V input voltage range. View design
The series resonant dual-active-bridge (SR-DAB) DC/DC converter reference design offers advantages like soft-switching, lower circulating current and high efficiency. The design is beneficial where power density, cost, galvanic isolation, wide-gain range, and high efficiency are needed for (...) View design
This reference design is a four-switch, buck-boost DC/DC converter used for battery backup unit (BBU) applications, targeting Open Compute Project® (OCP) Open Rack V3 Power BBU specifications. This design has a 1.4kW power capability. The converter works in either buck, buck-boost, or boost mode (...) View design
This reference design is a 3.6kW, single-phase, totem-pole bridgeless power factor correction (PFC) converter targeting modular hardware system common redundant power supply (M-CRPS) servers. The PFC operates at continuous conduction mode (CCM) at AC peak where inductor current is high, and (...) View design
This reference design uses TPS7H5020-SEP as a primary-side regulated (PSR) flyback converter. The input accepts a 22V to 36V range to generate a 12V bias referenced to primary ground and another 12V output that can be referenced to another return. This reference design can be used to provide bias (...)
This reference design uses TPS7H5020-SEP as a primary-side regulated (PSR) flyback converter. The input accepts a 22V to 36V range to generate a 12V bias referenced to primary ground and another 12V output that can be referenced to another return. This reference design can be used to provide bias (...)
This reference design is a digitally controlled 3.6kW, 54V single-phase AC-to-DC rectifier with all GaN switches. This design is a demonstration for modular hardware system common redundant power supply (M-CRPS) with standard form factor. The input stage chooses a single-phase, totem-pole (...) View design
This reference design is a high-density and high-efficiency 8kW power supply. The first stage is a triangular conduction mode (TCM) power factor correction (PFC) converter followed by a delta-delta connected three-phase inductor-inductor-capacitor (LLC) converter. Both power stages are implemented (...) View design
This reference design is a high-density and high-efficiency 8kW power supply. The first stage is a triangular conduction mode (TCM) power factor correction (PFC) converter followed by a delta-delta connected three-phase inductor-inductor-capacitor (LLC) converter. Both power stages are implemented (...) View design
This reference design introduces a tiny auxiliary power supply unit (PSU) used to supply automotive insulated-gate bipolar transistor (IGBT) or automotive silicon carbide (SiC) drive. The isolated outputs support three gate controls, each supplied with 21.2V, 2W output. This design uses the planar (...) View design
This reference design introduces a tiny auxiliary power supply unit (PSU) used to supply automotive insulated-gate bipolar transistor (IGBT) or automotive silicon carbide (SiC) drive. The isolated outputs support three gate controls, each supplied with 21.2V, 2W output. This design uses the planar (...) View design
This reference design is a high-density and high-efficiency, 5kW power factor correction (PFC) converter implemented with TI high-performance Gallium Nitride (GaN) power switches. A peak system efficiency of 99.2% with an open-frame power density of 120W/in3 was measured. The power stage uses a (...) View design
This reference design describes a 3.5kW, 800V to 14V DC-DC converter with 650V Gallium nitride (GaN) high-electron mobility transistors (HEMT). Using stacked half-bridge (SHB) topology makes the converter work at 800V with 650V GaN HEMT. Using LMG3522R030 as primary switches makes the converter (...) View design
This design is a dual-phase automotive boost converter for Class-H audio applications using LMG2100R026 gallium nitride (GaN) half bridges and offering analog- or digital-output voltage tracking. The output power is 1000W at 11V input voltage (1250W peak at 12V). The converter area measures 47mm × (...) View design
This small form factor power supply provides bias power to isolated silicon carbide (SiC) or gallium nitride (GaN) MOSFET gate drivers when extremely high dV/dT on the secondary side is expected, such as wideband gap switches. The board accepts 24V input and supplies 12V at 200mA. The resonant (...) View design
The TIDA-010958 is a radiation-hardened synchronous buck power reference design intended for the AMD® Versal® AI Core XQRVC1902 core rail. The design is for a 12V input operation to generate a 0.8V output voltage and maximum 80A output current. This compact power design delivers high current while (...) View design
This reference design is a 28V output, 12A synchronous buck converter for space missions operating from a 50V to 150V input range. Primary applications include stepping down voltages from solar panels and 120VDC power distribution buses. The TPS7H5006-SEP pulse width modulation (PWM) controller (...) View design
