logo

NCP81228 ON Semiconductor 8 + 2 Phase Output Controller Datasheet

NCP81228FDMNTXG NCP81228FD - 8+2 IMVP8 CONTROLLER FOR COMET LAKE DELL


ON Semiconductor
NCP81228
Part Number NCP81228
Manufacturer ON Semiconductor (https://www.onsemi.com/)
Description Pin No. 1 2 3 4 5 6 7 8 9 Pin Name IOUT EN SDIO ALERT# SCLK VR_RDY VCC PSYS VRMP Description Total output current monitor for eight−phase regulator Enable. High enables both rails Serial VID data interface Serial VID ALERT# Serial VID clock VR_RDY indicates both rails are ready to accept SVID com...
Features
 Vin Range 4.5 V to 21 V
 Startup into Pre−Charged Loads While Avoiding False OVP
 Digital Soft Start Ramp
 Adjustable Vboot
 High Impedance Differential Output Voltage Amplifier
 Dynamic Reference Injection
 Programmable Output Voltage Slew Rates
 Dynamic VID Feed−Forward
 Differential Current Sense Amplifiers for Each Phase
 Programmable Adaptive Voltage Positioning (AVP)
 Adjustable Switching Frequency Range
 Digitally Stabilized Switching Frequency
 UltraSonic Operation
 PSYS Input Monitor (SVID address 0D)
 Meets Intel’s IMVP8 Specifications
 Current Mode Dual Edge Modulat...

Document Datasheet NCP81228 datasheet pdf (466.21KB)
Distributor Distributor
Rochester Electronics
Stock 2328 In Stock
Price
1000 units: 1.24 USD
500 units: 1.31 USD
100 units: 1.37 USD
25 units: 1.43 USD
1 units: 1.46 USD
BuyNow BuyNow BuyNow (Manufacturer a onsemi)




NCP81228 Distributor

part
onsemi
NCP81228FHMNTXG
8+2 IMVP8 CONTROLLER FOR (Alt: NCP81228FHMNTXG)
No price available
Distributor
Avnet Asia

0 In Stock
No Longer Stocked
part
onsemi
NCP81228FDMNTXG
NCP81228FD - 8+2 IMVP8 CONTROLLER FOR COMET LAKE DELL
1000 units: 1.24 USD
500 units: 1.31 USD
100 units: 1.37 USD
25 units: 1.43 USD
1 units: 1.46 USD
Distributor
Rochester Electronics

2328 In Stock
BuyNow BuyNow





NCP81228 Similar Datasheet

Part Number Description
NCP81230H
manufacturer
ON Semiconductor
Precise Low Voltage Synchronous Buck Controller
NCP81230H Product Preview Precise Low Voltage Synchronous Buck Controller with Power Saving Mode http://onsemi.com The NCP81230H is a simple single phase solution with differential phase current sensing, power saving operation, and gate drivers to provide accurately regulated power. The adaptive non overlap gate drive and power saving operation circuit provide a low switching loss and high efficiency solution for server, notebook, and desktop systems. A high performance operational error amplifier is provided to simplify compensation of the system. The NCP81230H features also include soft−start sequence, accurate overvoltage and over current protection, UVLO for VCC and VCCP, and thermal ...
NCP81232
manufacturer
ON Semiconductor
Dual-Channel/Multi-Phase Controller
Pin Name 1 VIN 2 EN1 3 EN2 4 DRVON 5 PGOOD1 6 PGOOD2 7 FAULT 8 DLY1 9 DLY2 /DDR 10 SS 11 FSET 12 CNFG 13 ILIMT2 Type Power Input Analog Input Analog Input Logic Input Logic Output Logic Output Logic Output Analog Input Analog Input Analog Input Analog Input Analog Input Analog Input Description Power Supply Input. Power supply input pin of the device, which is connected to the integrated 5V LDO. 4.7 mF or more ceramic capacitors must bypass this input to power ground. The capacitors should be placed as close as possible to this pin. Enable 1. Logic high enables channel 1 and logic low disables channel 1. Input supply UVLO can be programmed at this pin for chann...
NCP81234
manufacturer
ON Semiconductor
Dual-Channel/Two-Phase Controller
Pin Name Type Description 1 VIN Power Input Power Supply Input. Power supply input pin of the device, which is connected to the integrated 5 V LDO. 4.7 mF or more ceramic capacitors must bypass this input to power ground. The capac- itors should be placed as close as possible to this pin. 2 EN1 Analog Input Enable 1. Logic high enables channel 1 and logic low disables channel 1. Input supply UVLO can be programmed at this pin for channel 1. 3 EN2 Analog Input Enable 2. Logic high enables channel 2 and logic low disables channel 2. Input supply UVLO can be programmed at this pin for channel 2. 4 DRVON Logic Input Driver On. Logic high input means drivers’ power is ready. ...
NCP81239
manufacturer
ON Semiconductor
USB Power Delivery 4-Switch Buck Boost Controller
Pin Pin Name Description 1 HSG1 S1 gate drive. Drives the S1 N−channel MOSFET with a voltage equal to VDRV superimposed on the switch node voltage VSW1. 2 LSG1 Drives the gate of the S2 N−channel MOSFET between ground and VDRV. 3, 22 PGND Power ground for the low side MOSFET drivers. Connect these pins closely to the source of the bottom N−channe...
NCP81239A
manufacturer
ON Semiconductor
USB Power Delivery 4-Switch Buck Boost Controller
Pin Pin Name Description 1 HSG1 S1 gate drive. Drives the S1 N−channel MOSFET with a voltage equal to VDRV superimposed on the switch node voltage VSW1. 2 LSG1 Drives the gate of the S2 N−channel MOSFET between ground and VDRV. 3, 22 PGND Power ground for the low side MOSFET drivers. Connect these pins closely to the source of the bottom N−channe...
NCP81242
manufacturer
ON Semiconductor
Single-Phase Voltage Regulator
Pin Name Type 1 VRHOT# Logic Output 2 SDIO Logic Bidirectional 3 ALERT# Logic Output 4 SCLK Logic Input 5, 32, 49 GND Analog Ground 6 VRRDY Logic Output 7, 11−17, 50 VIN Power Input 8 BST Power Bidirectional 9 GH Analog Output 10 SW Power Return 18, 25−29, 51 19−24 SW PGND Power Output Power Ground 30 GL Analog Output 31 VBOOT Analog Input 33 VCCP Analog Power 34 TSENSE Analog 35 IMAX Analog Input 36 IOUT Analog Output 37 ILIM Analog Output 38 CSCOMP Analog Output 39 CSSUM Analog Input 40 CSREF Analog Input 41 FREQ Analog Input 42 COMP Analog 43 FB Analog Input 44 DIFFOUT Analog Output 45 VSN Analog Input 46 VSP Analog Input 47 VCC Analog Power 48 E...
NCP81243
manufacturer
ON Semiconductor
Dual Output 3 & 2 Phase Controller
NCP81243 Dual Output 3 & 2 Phase Controller with Single Intel Proprietary Interface for Desktop and Notebook CPU Applications www.onsemi.com The NCP81243 dual output three plus two phase buck solutions are optimized for Intel®’s IMVP8 CPUs. The NCP81243 offer five PWM drive signals that can be configured in multiple setups. The controller combines true differential voltage sensing, differential inductor DCR current sensing, input voltage feed−forward, and adaptive voltage positioning to provide accurately regulated power for both desktop and notebook applications. The control system is based on Dual−Edge pulse−width modulation (PWM) combined with DCR current sensing providing an ultra fas...
NCP81245
manufacturer
ON Semiconductor
Three-Rail Output Controller
NCP81245 Three-Rail Output Controller with Single Intel Proprietary Interface for Desktop and Notebook CPU Applications www.onsemi.com The NCP81245 (3+3+1 phase) three−output buck solution is optimized for Intel’s IMVP8 CPUs. The two multi−phase rail control systems are based on Dual−Edge pulse−width modulation (PWM) combined with DCR current sensing providing an ultra fast initial response to dynamic load events and reduced system cost. The single−phase rail makes use of ON Semiconductor’s patented high performance RPM operation. RPM control maximizes transient response while allowing for smooth transitions between discontinuous−frequency−scaling operation and continuous−mode full−power ...
NCP81246
manufacturer
ON Semiconductor
Three-Rail Controller
NCP81246 Three-Rail Controller with Intel Proprietary Interface for IMVP8 CPU Applications The NCP81246 contains a two-phase, and two single-phase buck regulators optimized for Intel IMVP8 compatible CPUs. The two-phase controller combines true differential voltage sensing, differential inductor DCR current sensing, input voltage feed-forward, and adaptive voltage positioning to provide accurately regulated power for IMVP8 Rail2. The two single-phase controllers can be used for Rail1, Rail3 and Rail4 rails. Both make use of ON Semiconductor’s patented enhanced RPM operation. RPM control maximizes transient response while allowing for smooth transitions between discontinuous frequency scalin...




logo    Since 2024. D4U Semiconductor.   |   Contact Us   |   Privacy Policy