SPRS961 Data sheet

SPRS961F August 2016 – November 2019 AM5706 , AM5708

PRODUCTION DATA.

Package Options

Refer to the PDF data sheet for device specific package drawings

Mechanical Data (Package|Pins)

CBD|538

Thermal pad, mechanical data (Package|Pins)

Orderable Information

5.4 Recommended Operating Conditions

over operating free-air temperature range (unless otherwise noted)

PARAMETER	DESCRIPTION		MIN ^⁽²⁾	NOM	MAX DC ^⁽³⁾	MAX ^⁽²⁾	UNIT
Input Power Supply Voltage Range
vdd	Core voltage domain supply		See Section 5.5				V
vdd_dsp	DSP voltage domain supply		See Section 5.5				V
vdda_usb1	DPLL_USB and HS USB1 1.8V analog power supply		1.71	1.80	1.836	1.89	V
vdda_usb1	Maximum noise (peak-peak)			50			mV_PPmax
vdda_usb2	HS USB2 1.8V analog power supply		1.71	1.80	1.836	1.89	V
vdda_usb2	Maximum noise (peak-peak)			50			mV_PPmax
vdda33v_usb1^⁽⁵⁾	HS USB1 3.3V analog power supply		3.135	3.3	3.366	3.465	V
vdda33v_usb1^⁽⁵⁾	Maximum noise (peak-peak)			50			mV_PPmax
vdda33v_usb2^⁽⁵⁾	HS USB2 3.3V analog power supply		3.135	3.3	3.366	3.465	V
vdda33v_usb2^⁽⁵⁾	Maximum noise (peak-peak)			50			mV_PPmax
vdda_per	PER PLL and PER HSDIVIDER analog power supply		1.71	1.80	1.836	1.89	V
vdda_per	Maximum noise (peak-peak)			50			mV_PPmax
vdda_ddr	DPLL_DDR and DDR HSDIVIDER analog power supply		1.71	1.80	1.836	1.89	V
vdda_ddr	Maximum noise (peak-peak)			50			mV_PPmax
vdda_debug	DPLL_DEBUG analog power supply		1.71	1.80	1.836	1.89	V
vdda_debug	Maximum noise (peak-peak)			50			mV_PPmax
vdda_core_gmac	DPLL_CORE and CORE HSDIVIDER analog power supply		1.71	1.80	1.836	1.89	V
vdda_core_gmac	Maximum noise (peak-peak)			50			mV_PPmax
vdda_gpu	DPLL_GPU analog power supply		1.71	1.80	1.836	1.89	V
vdda_gpu	Maximum noise (peak-peak)			50			mV_PPmax
vdda_hdmi	PLL_HDMI and HDMI analog power supply		1.71	1.80	1.836	1.89	V
vdda_hdmi	Maximum noise (peak-peak)			50			mV_PPmax
vdda_pcie	DPLL_PCIe_REF and PCIe analog power supply		1.71	1.80	1.836	1.89	V
vdda_pcie	Maximum noise (peak-peak)			50			mV_PPmax
vdda_usb3	DPLL_USB_OTG_SS and USB3.0 RX/TX analog power supply		1.71	1.80	1.836	1.89	V
vdda_usb3	Maximum noise (peak-peak)			50			mV_PPmax
vdda_video	DPLL_VIDEO1 analog power supply		1.71	1.80	1.836	1.89	V
vdda_video	Maximum noise (peak-peak)			50			mV_PPmax
vdds_mlbp	MLBP IO power supply		1.71	1.80		1.89	V
vdds_mlbp	Maximum noise (peak-peak)			50			mV_PPmax
vdda_mpu_abe	DPLL_MPU analog power supply		1.71	1.80	1.836	1.89	V
vdda_mpu_abe	Maximum noise (peak-peak)			50			mV_PPmax
vdda_osc	HFOSC analog power supply		1.71	1.80		1.89	V
vdda_osc	Maximum noise (peak-peak)			50			mV_PPmax
vdda_csi	CSI Interface 1.8v Supply		1.71	1.80	1.836	1.89	V
vdda_csi	Maximum noise (peak-peak)			50			mV_PPmax
vdds18v	1.8V power supply		1.71	1.80	1.836	1.89	V
vdds18v	Maximum noise (peak-peak)			50			mV_PPmax
vdds18v_ddr1	EMIF1 bias power supply		1.71	1.80	1.836	1.89	V
vdds18v_ddr1	Maximum noise (peak-peak)			50			mV_PPmax
vdds_ddr1	EMIF1 power supply (1.5V for DDR3 mode / 1.35V DDR3L mode)	1.35-V Mode	1.28	1.35	1.377	1.42	V
	EMIF1 power supply (1.5V for DDR3 mode / 1.35V DDR3L mode)	1.5-V Mode	1.43	1.50	1.53	1.57	V
	Maximum noise (peak-peak)	1.35-V Mode		50			mV_PPmax
	Maximum noise (peak-peak)	1.5-V Mode		50			mV_PPmax
vddshv1	Dual Voltage (1.8V or 3.3V) power supply for the VIN2 Power Group pins	1.8-V Mode	1.71	1.80	1.836	1.89	V
		3.3-V Mode	3.135	3.30	3.366	3.465	V
	Maximum noise (peak-peak)	1.8-V Mode		50			mV_PPmax
	Maximum noise (peak-peak)	3.3-V Mode		50			mV_PPmax
vddshv10	Dual Voltage (1.8V or 3.3V) power supply for the GPMC Power Group pins	1.8-V Mode	1.71	1.80	1.836	1.89	V
		3.3-V Mode	3.135	3.30	3.366	3.465	V
	Maximum noise (peak-peak)	1.8-V Mode		50			mV_PPmax
	Maximum noise (peak-peak)	3.3-V Mode		50			mV_PPmax
vddshv11	Dual Voltage (1.8V or 3.3V) power supply for the MMC2 Power Group pins	1.8-V Mode	1.71	1.80	1.836	1.89	V
		3.3-V Mode	3.135	3.30	3.366	3.465	V
	Maximum noise (peak-peak)	1.8-V Mode		50			mV_PPmax
	Maximum noise (peak-peak)	3.3-V Mode		50			mV_PPmax
vddshv3	Dual Voltage (1.8V or 3.3V) power supply for the GENERAL Power Group pins	1.8-V Mode	1.71	1.80	1.836	1.89	V
		3.3-V Mode	3.135	3.30	3.366	3.465	V
	Maximum noise (peak-peak)	1.8-V Mode		50			mV_PPmax
	Maximum noise (peak-peak)	3.3-V Mode		50			mV_PPmax
vddshv4	Dual Voltage (1.8V or 3.3V) power supply for the MMC4 Power Group pins	1.8-V Mode	1.71	1.80	1.836	1.89	V
		3.3-V Mode	3.135	3.30	3.366	3.465	V
	Maximum noise (peak-peak)	1.8-V Mode		50			mV_PPmax
	Maximum noise (peak-peak)	3.3-V Mode		50			mV_PPmax
vddshv7	Dual Voltage (1.8V or 3.3V) power supply for the WIFI Power Group pins	1.8-V Mode	1.71	1.80	1.836	1.89	V
		3.3-V Mode	3.135	3.30	3.366	3.465	V
	Maximum noise (peak-peak)	1.8-V Mode		50			mV_PPmax
	Maximum noise (peak-peak)	3.3-V Mode		50			mV_PPmax
vddshv8	Dual Voltage (1.8V or 3.3V) power supply for the MMC1 Power Group pins	1.8-V Mode	1.71	1.80	1.836	1.89	V
		3.3-V Mode	3.135	3.30	3.366	3.465	V
	Maximum noise (peak-peak)	1.8-V Mode		50			mV_PPmax
	Maximum noise (peak-peak)	3.3-V Mode		50			mV_PPmax
vddshv9	Dual Voltage (1.8V or 3.3V) power supply for the RGMII Power Group pins	1.8-V Mode	1.71	1.80	1.836	1.89	V
		3.3-V Mode	3.135	3.30	3.366	3.465	V
	Maximum noise (peak-peak)	1.8-V Mode		50			mV_PPmax
	Maximum noise (peak-peak)	3.3-V Mode		50			mV_PPmax
vss	Ground supply		0				V
vssa_osc0	OSC0 analog ground		0				V
vssa_osc1	OSC1 analog ground		0				V
T_J^⁽¹⁾	Operating junction temperature range	Commercial	0			90	°C
T_J^⁽¹⁾	Operating junction temperature range	Extended	-40			105	°C
ddr1_vref0	Reference Power Supply EMIF1			0.5 × vdds_ddr1			V

Refer to Power on Hours table for limitations.
The voltage at the device ball should never be below the MIN voltage or above the MAX voltage for any amount of time. This requirement includes dynamic voltage events such as AC ripple, voltage transients, voltage dips, etc.
The DC voltage at the device ball should never be above the MAX DC voltage to avoid impact on device reliability and lifetime POH (Power-On-Hours). The MAX DC voltage is defined as the highest allowed DC regulated voltage, without transients, seen at the ball.
Logic functions and parameter values are not assured out of the range specified in the recommended operating conditions.
USB Analog supply also powers digital IO buffers. This supply cannot be tied to VSS if USB is unused since digital IO buffers must be powered during device operation.