参考设计
(23)
Intel® Atom™ E6xx (Tunnel Creek) CPU/GPU core reference design for Embedded PCs
PMP5835: 12VIN Intel Atom E6xx (Tunnel Creek) CPU Core Power Design for Industrial PCs; this design enables a small CPU core regulator power supply area and excellent thermal performance, one of they key design requirements of COM express modules and single board computers used in industrial automation and process control.
Dual Rail (+/-) Ultra-Low Noise High PSRR, LDOs (-15V @ 200mA) Reference Design
PMP5863.4: The negative-voltage TPS7A3001 LDO, when paired with the positivevoltage TPS7A4901 LDO, provides designers with a total solution for powering precision analog applications. These LDOs feature ultra-high PSRR performance with output noise as low as 16 µVrms and are designed to power noise-sensitive applications such as op amps, ADCs, DACs and other high-performance analog circuitry.
Dual Rail (+/-) Ultra-Low Noise High PSRR LDOs (-16V @ 300mA) Reference Design
PMP5863.2: The negative-voltage TPS7A3001 LDO, when paired with the positivevoltage TPS7A4901 LDO, provides designers with a total solution for powering precision analog applications. These LDOs feature ultra-high PSRR performance with output noise as low as 16 µVrms and are designed to power noise-sensitive applications such as op amps, ADCs, DACs and other high-performance analog circuitry.
Sync Buck for Intel Atom E6xx Tunnel Creek (1.25V @ 10mA)
PMP5922.9: PMP5922 is a complete 3.3V/5VIN input Intel Atom Tunnel Creek Power System. For the core voltages the TPS59610 controller with the dual CSD86330Q3D MOSFET is used. The 1.2V IOH uses the TPS53311 converter, the DDR2 memory uses the TPS51916 converter and for the 1.05V I/O the TPS53219 controller plus dual CSD86330Q3D is used. For 4 remaining low current outputs LDOs are used.
Sync Buck for Intel Atom E6xx Tunnel Creek (1.5V @ 350mA) - PMP5922.7 - TI Tool Folder
PMP5922: PMP5922 is a complete 3.3V/5VIN input Intel Atom Tunnel Creek Power System. For the core voltages the TPS59610 controller with the dual CSD86330Q3D MOSFET is used. The 1.2V IOH uses the TPS53311 converter, the DDR2 memory uses the TPS51916 converter and for the 1.05V I/O the TPS53219 controller plus dual CSD86330Q3D is used. For 4 remaining low current outputs LDOs are used.
Sync Buck for Intel Atom E6xx Tunnel Creek (1.05V @ 3.4A)
PMP5922.5: PMP5922 is a complete 3.3V/5VIN input Intel Atom Tunnel Creek Power System. For the core voltages the TPS59610 controller with the dual CSD86330Q3D MOSFET is used. The 1.2V IOH uses the TPS53311 converter, the DDR2 memory uses the TPS51916 converter and for the 1.05V I/O the TPS53219 controller plus dual CSD86330Q3D is used. For 4 remaining low current outputs LDOs are used.
Sync Buck for Intel Atom E6xx Tunnel Creek (2.5V @ 50mA)
PMP5922.6: PMP5922 is a complete 3.3V/5VIN input Intel Atom Tunnel Creek Power System. For the core voltages the TPS59610 controller with the dual CSD86330Q3D MOSFET is used. The 1.2V IOH uses the TPS53311 converter, the DDR2 memory uses the TPS51916 converter and for the 1.05V I/O the TPS53219 controller plus dual CSD86330Q3D is used. For 4 remaining low current outputs LDOs are used.
Sync Buck for Intel Atom E6xx Tunnel Creek (1.1V @ 3.5A)
PMP5922.1: TI's Highest Power Density Low Input Voltage Complete Intel Atom E6xx (Tunnel Creek) power system designs; in 967mm2 this design has all the voltage regulators needed to power Intel's Atom E6xx CPU platform and fit onto a 70x70 or smaller COM Express Module used in Industrial Automation and Process Control applications.
Dual Rail (+/-) Ultra-Low Noise High PSRR LDOs (16V @ 150mA) Reference Design
PMP5863.1: The negative-voltage TPS7A3001 LDO, when paired with the positivevoltage TPS7A4901 LDO, provides designers with a total solution for powering precision analog applications. These LDOs feature ultra-high PSRR performance with output noise as low as 16 µVrms and are designed to power noise-sensitive applications such as op amps, ADCs, DACs and other high-performance analog circuitry.
Intel IMVP6+ Atom CPU Core Power Design
PMP5114: High power density Intel IMVP6+ Atom CPU Core power supply for Embedded PCs; this design enables high power density and flexible configuration with the use of discrete TI NexFETs while meeting all Intel specifications
Intel IMVP7 2nd Generation Core Mobile (Core i7) Power Management Reference Design
TIDA-00020: The Intel Core i7 power management design is a complete solution for the Intel™ IMVP-7 Serial VID (SVID) Power System The design features an IMVP-7 3-Phase CPU supply, a single-phase GPU Vcore supply, a 1.05VCCIO supply, and a DDR3L/DDR4 memory rail. To greatly improve power density and thermal performance, TI's 5-mm x 6mm NEXFET Power Block MOSFETs are used.
Intel IMVP7 3rd Generation Core Mobile (Core i7) Power Management Reference Design
TIDA-00021: The Intel Core i7 power management design is a complete solution for Intel IMVP-7 SVID. A GUI communication program is available along with several test points on the board to evaluate the static and dynamic performance of the CPU's DC/DC Controller. The design features an IMVP-7 3-Phase CPU supply, a 2 Phase GPU Vcore supply, a 1.05VCCIO supply, and a DDR3L/DDR4 memory rail. To greatly improve power density and thermal performance, TI's 5-mm x 6mm NEXFET Power Block MOSFETs are used.
Sync Buck for Intel Atom E6xx Tunnel Creek (1.1V @ 1.6A)
PMP5922.2: PMP5922 is a complete 3.3V/5VIN input Intel Atom Tunnel Creek Power System. For the core voltages the TPS59610 controller with the dual CSD86330Q3D MOSFET is used. The 1.2V IOH uses the TPS53311 converter, the DDR2 memory uses the TPS51916 converter and for the 1.05V I/O the TPS53219 controller plus dual CSD86330Q3D is used. For 4 remaining low current outputs LDOs are used.
Sync Buck for Intel Atom E6xx Tunnel Creek (1.8V @ 5A) - PMP5922.4 - TI Tool Folder
PMP5922: PMP5922 is a complete 3.3V/5VIN input Intel Atom Tunnel Creek Power System. For the core voltages the TPS59610 controller with the dual CSD86330Q3D MOSFET is used. The 1.2V IOH uses the TPS53311 converter, the DDR2 memory uses the TPS51916 converter and for the 1.05V I/O the TPS53219 controller plus dual CSD86330Q3D is used. For 4 remaining low current outputs LDOs are used.
Sync Buck for Intel Atom E6xx Tunnel Creek (1.8V @ 5A)
PMP5922.4: PMP5922 is a complete 3.3V/5VIN input Intel Atom Tunnel Creek Power System. For the core voltages the TPS59610 controller with the dual CSD86330Q3D MOSFET is used. The 1.2V IOH uses the TPS53311 converter, the DDR2 memory uses the TPS51916 converter and for the 1.05V I/O the TPS53219 controller plus dual CSD86330Q3D is used. For 4 remaining low current outputs LDOs are used.
Sync Buck for Intel Atom E6xx Tunnel Creek (1.5V @ 350mA)
PMP5922.7: PMP5922 is a complete 3.3V/5VIN input Intel Atom Tunnel Creek Power System. For the core voltages the TPS59610 controller with the dual CSD86330Q3D MOSFET is used. The 1.2V IOH uses the TPS53311 converter, the DDR2 memory uses the TPS51916 converter and for the 1.05V I/O the TPS53219 controller plus dual CSD86330Q3D is used. For 4 remaining low current outputs LDOs are used.
Sync Buck for Intel Atom E6xx Tunnel Creek (1.2V @ 3A)
PMP5922.3: PMP5922 is a complete 3.3V/5VIN input Intel Atom Tunnel Creek Power System. For the core voltages the TPS59610 controller with the dual CSD86330Q3D MOSFET is used. The 1.2V IOH uses the TPS53311 converter, the DDR2 memory uses the TPS51916 converter and for the 1.05V I/O the TPS53219 controller plus dual CSD86330Q3D is used. For 4 remaining low current outputs LDOs are used.
Dual Rail (+/-) Ultra-Low Noise High PSRR LDOs (15V @ 150mA) Reference Design
PMP5863.3: The negative-voltage TPS7A3001 LDO, when paired with the positivevoltage TPS7A4901 LDO, provides designers with a total solution for powering precision analog applications. These LDOs feature ultra-high PSRR performance with output noise as low as 16 µVrms and are designed to power noise-sensitive applications such as op amps, ADCs, DACs and other high-performance analog circuitry.
Sync Buck for Intel Atom E6xx Tunnel Creek (1.05V @ 100mA)
PMP5922.8: PMP5922 is a complete 3.3V/5VIN input Intel Atom Tunnel Creek Power System. For the core voltages the TPS59610 controller with the dual CSD86330Q3D MOSFET is used. The 1.2V IOH uses the TPS53311 converter, the DDR2 memory uses the TPS51916 converter and for the 1.05V I/O the TPS53219 controller plus dual CSD86330Q3D is used. For 4 remaining low current outputs LDOs are used.
