VccSA DC Specification - 007 - ID:832586 | Intel® Core™ Ultra 200S, Intel® Core™ Ultra 200S Plus ,Intel® Core™ Ultra 200HX and 200HX Plus Series Processors

Intel® Core™ Ultra 200S, Intel® Core™ Ultra 200S Plus ,Intel® Core™ Ultra 200HX and 200HX Plus Series Processors

Datasheet, Volume 1 of 2

ID	Date	Version	Classification
832586	03/17/2026		Public

VccSA DC Specification

Processor VCC_SA Supply DC Voltage and Current Specifications (S Processor Line)

Segment	Symbol	Parameter	Minimum	Typical	Maximum			Unit	Notes
All S Processor Line	VCC_SA Operating Voltage	Active Voltage Range for VCC_SA	0	-	1.52			V	1,2,3,7
8P+16E Core 125W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
8P+12E Core 125W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
6P+8E Core 125W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
8P+16E Core 65W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
8P+12E Core 65W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
6P+8E Core 65W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
6P+4E Core 65W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
8P+16E Core 35W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
8P+12E Core 35W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
6P+8E Core 35W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
6P+4E Core 35W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
PS0, PS1 ,PS2, PS3	TOB_{VCC_SA}	VCC_SA DC Voltage Tolerance	—	—	±20			mV	1,3,6
PS0, PS1, PS2, PS3	TOB_{VCC_SA}+Ripple	VCC_SA DC + Ripple Voltage Tolerance	—	—	-35 /+50			mV	3, 6, 8,16
All S Processor Line	DC_LL	VCC_SA DC Loadline	—	—	5.9			mΩ	4,5
All S Processor Line	AC_LL	VCC_SA AC Loadline	—	—	Below 400KHz: 5.9mOhms 400kHz -1500kHz: linear decrease with log(frequency) from 5.9mOhms to 4mOhms. Above 1500kHz: 4mOhms			mΩ	4,5
All S Processor Line	V_OVS_MAX	VCC_SA Max Overshoot Allowance from IccMAX	-	-	70			mV
All S Processor Line	T_OVS_MAX	VCC_SA Max Overshoot Time from IccMAX	-	-	10			µs
Notes: All specifications in this table are based on estimates and simulations or empirical data. These specifications will be updated with characterized data from silicon measurements at a later date. Maximum operating voltage given for motherboard design purposes. Each processor is programmed with a maximum valid voltage identification value (VID) that is set at manufacturing and cannot be altered. Individual maximum VID values are calibrated during manufacturing such that two processors at the same frequency may have different settings within the VID range. Note that this differs from the VID employed by the processor during a power management event (Adaptive Thermal Monitor, Enhanced Intel Speed-step Technology, or low-power states). Failure of product operation, including potential irreversible damage to the part, can occur from operating the part at voltages above the individual VID that is programmed. Long term reliability cannot be assured in conditions above or below Maximum/Minimum functional limits. The voltage specification requirements are measured on package pins as near as possible to the processor with an oscilloscope set to 100 MHz bandwidth, 1.5 pF maximum probe capacitance, and 1 MΩ minimum impedance. The maximum length of ground wire on the probe should be less than 5 mm. Ensure external noise from the system is not coupled into the oscilloscope probe. LL measured at sense points. LL specification values should not be exceeded. If exceeded, power, performance, and reliability penalty are expected. The LL values are for reference. Must still need to meet the voltage tolerance specification. Voltage Tolerance budget values Include ripples Vcc_SA is having few point of voltage define by CPU VID

Processor VCC_SA Supply DC Voltage and Current Specifications (HX Processor Line)

Segment	Symbol	Parameter	Minimum	Typical	Maximum			Unit	Notes
All HX Processor Line	VCC_SA Operating Voltage	Active Voltage Range for VCC_SA	0	-	1.52			V	1,2,3,7
8P+16E Core 55W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
8P+12E Core 55W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
6P+8E Core 55W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
PS0, PS1 ,PS2, PS3	TOB_{VCC_SA}	VCC_SA DC Voltage Tolerance	—	—	±20			mV	1,3,6
PS0, PS1, PS2, PS3	TOB_{VCC_SA}+Ripple	VCC_SA DC + Ripple Voltage Tolerance	—	—	-35 /+50			mV	3, 6, 8,16
All HX Processor Line	DC_LL	VCC_SA DC Loadline	—	—	5.9			mΩ	4,5
All HX Processor Line	AC_LL	VCC_SA AC Loadline	—	—	Below 400kHz: 5.9mOhms. 400kHz -1500kHz: linear decrease with log(frequency) from 5.9mOhms to 4mOhms. Above 1500kHz: 4mOhms			mΩ	4,5
All HX Processor Line	V_OVS_MAX	VCC_SA Max Overshoot Allowance from IccMAX	-	-	70			mV
All HX Processor Line	T_OVS_MAX	VCC_SA Max Overshoot Time from IccMAX	-	-	10			µs
Notes: All specifications in this table are based on estimates and simulations or empirical data. These specifications will be updated with characterized data from silicon measurements at a later date. Maximum operating voltage given for motherboard design purposes. Each processor is programmed with a maximum valid voltage identification value (VID) that is set at manufacturing and cannot be altered. Individual maximum VID values are calibrated during manufacturing such that two processors at the same frequency may have different settings within the VID range. Note that this differs from the VID employed by the processor during a power management event (Adaptive Thermal Monitor, Enhanced Intel Speed-step Technology, or low-power states). Failure of product operation, including potential irreversible damage to the part, can occur from operating the part at voltages above the individual VID that is programmed. Long term reliability cannot be assured in conditions above or below Maximum/Minimum functional limits. The voltage specification requirements are measured on package pins as near as possible to the processor with an oscilloscope set to 100 MHz bandwidth, 1.5 pF maximum probe capacitance, and 1 MΩ minimum impedance. The maximum length of ground wire on the probe should be less than 5 mm. Ensure external noise from the system is not coupled into the oscilloscope probe. LL measured at sense points. LL specification values should not be exceeded. If exceeded, power, performance, and reliability penalty are expected. The LL values are for reference. Must still need to meet the voltage tolerance specification. Voltage Tolerance budget values Include ripples Vcc_SA is having few point of voltage define by CPU VID

Processor VCC_SA Supply DC Voltage and Current Specifications (S-Plus Processor Line)

Segment	Symbol	Parameter	Minimum	Typical	Maximum			Unit	Notes
All S-Plus Processor Line	VCC_SA Operating Voltage	Active Voltage Range for VCC_SA	0	-	1.52			V	1,2,3,7
8P+16E Core 125W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
6P+12E Core 125W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
PS0, PS1 ,PS2, PS3	TOB_{VCC_SA}	VCC_SA DC Voltage Tolerance	—	—	±20			mV	1,3,6
PS0, PS1, PS2, PS3	TOB_{VCC_SA}+Ripple	VCC_SA DC + Ripple Voltage Tolerance	—	—	-35 /+50			mV	3, 6, 8,16
All S Processor Line	DC_LL	VCC_SA DC Loadline	—	—	5.9			mΩ	4,5
All S-Plus Processor Line	AC_LL	VCC_SA AC Loadline	—	—	Below 400KHz: 5.9mOhms 400kHz -1500kHz: linear decrease with log(frequency) from 5.9mOhms to 4mOhms. Above 1500kHz: 4mOhms			mΩ	4,5
All S-Plus Processor Line	V_OVS_MAX	VCC_SA Max Overshoot Allowance from IccMAX	-	-	70			mV
All S-Plus Processor Line	T_OVS_MAX	VCC_SA Max Overshoot Time from IccMAX	-	-	10			µs
Notes: All specifications in this table are based on estimates and simulations or empirical data. These specifications will be updated with characterized data from silicon measurements at a later date. Maximum operating voltage given for motherboard design purposes. Each processor is programmed with a maximum valid voltage identification value (VID) that is set at manufacturing and cannot be altered. Individual maximum VID values are calibrated during manufacturing such that two processors at the same frequency may have different settings within the VID range. Note that this differs from the VID employed by the processor during a power management event (Adaptive Thermal Monitor, Enhanced Intel Speed-step Technology, or low-power states). Failure of product operation, including potential irreversible damage to the part, can occur from operating the part at voltages above the individual VID that is programmed. Long term reliability cannot be assured in conditions above or below Maximum/Minimum functional limits. The voltage specification requirements are measured on package pins as near as possible to the processor with an oscilloscope set to 100 MHz bandwidth, 1.5 pF maximum probe capacitance, and 1 MΩ minimum impedance. The maximum length of ground wire on the probe should be less than 5 mm. Ensure external noise from the system is not coupled into the oscilloscope probe. LL measured at sense points. LL specification values should not be exceeded. If exceeded, power, performance, and reliability penalty are expected. The LL values are for reference. Must still need to meet the voltage tolerance specification. Voltage Tolerance budget values Include ripples Vcc_SA is having few point of voltage define by CPU VID

Processor VCC_SA Supply DC Voltage and Current Specifications (HX-Plus Processor Line)

Segment	Symbol	Parameter	Minimum	Typical	Maximum			Unit	Notes
All HX-Plus Processor Line	VCC_SA Operating Voltage	Active Voltage Range for VCC_SA	0	-	1.52			V	1,2,3,7
8P+16E Core 55W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
8P+12E Core 55W	IccMAX_{VCC_SA}	Max. Current for VCC_SA Processor Rail	0	—	39			A	1,2
PS0, PS1 ,PS2, PS3	TOB_{VCC_SA}	VCC_SA DC Voltage Tolerance	—	—	±20			mV	1,3,6
PS0, PS1, PS2, PS3	TOB_{VCC_SA}+Ripple	VCC_SA DC + Ripple Voltage Tolerance	—	—	-35 /+50			mV	3, 6, 8,16
All HX-Plus Processor Line	DC_LL	VCC_SA DC Loadline	—	—	5.9			mΩ	4,5
All HX-Plus Processor Line	AC_LL	VCC_SA AC Loadline	—	—	Below 400kHz: 5.9mOhms. 400kHz -1500kHz: linear decrease with log(frequency) from 5.9mOhms to 4mOhms. Above 1500kHz: 4mOhms			mΩ	4,5
All HX-Plus Processor Line	V_OVS_MAX	VCC_SA Max Overshoot Allowance from IccMAX	-	-	70			mV
All HX-Plus Processor Line	T_OVS_MAX	VCC_SA Max Overshoot Time from IccMAX	-	-	10			µs
Notes: All specifications in this table are based on estimates and simulations or empirical data. These specifications will be updated with characterized data from silicon measurements at a later date. Maximum operating voltage given for motherboard design purposes. Each processor is programmed with a maximum valid voltage identification value (VID) that is set at manufacturing and cannot be altered. Individual maximum VID values are calibrated during manufacturing such that two processors at the same frequency may have different settings within the VID range. Note that this differs from the VID employed by the processor during a power management event (Adaptive Thermal Monitor, Enhanced Intel Speed-step Technology, or low-power states). Failure of product operation, including potential irreversible damage to the part, can occur from operating the part at voltages above the individual VID that is programmed. Long term reliability cannot be assured in conditions above or below Maximum/Minimum functional limits. The voltage specification requirements are measured on package pins as near as possible to the processor with an oscilloscope set to 100 MHz bandwidth, 1.5 pF maximum probe capacitance, and 1 MΩ minimum impedance. The maximum length of ground wire on the probe should be less than 5 mm. Ensure external noise from the system is not coupled into the oscilloscope probe. LL measured at sense points. LL specification values should not be exceeded. If exceeded, power, performance, and reliability penalty are expected. The LL values are for reference. Must still need to meet the voltage tolerance specification. Voltage Tolerance budget values Include ripples Vcc_SA is having few point of voltage define by CPU VID