Regulator providing shared current from multiple input supplies

What is claimed is: 1 . Regulator circuitry, comprising: a low dropout (LDO) regulator configured to receive a first supply voltage and to output a first current drawn from the first supply voltage by a load; a current control circuit coupled to the LDO; and a current sharing pass transistor configured to receive a second supply voltage, the second supply voltage being received from a different input supply than the first supply voltage; and wherein the current control circuit is configured to, responsive to a load current corresponding to the load meeting a current sharing point, initiate current sharing of the load current between the first supply voltage and the second supply voltage. 2 . The regulator circuitry of claim 1 , wherein an output of an error amplifier of the LDO regulator is directly coupled to the current control circuit. 3 . The regulator circuitry of claim 1 , wherein the output of the error amplifier of the LDO is commonly coupled to a pass transistor of the LDO regulator and to a gate of a first transistor of the current control circuit. 4 . The regulator circuitry of claim 1 , wherein the current sharing pass transistor has a first source/drain configured to receive the second supply voltage and a second source/drain configured to provide a portion of the load current subsequent to the load current meeting the current sharing point. 5 . The regulator circuitry of claim 1 , wherein the current control circuit comprises one or more current mirrors. 6 . The regulator circuitry of claim 1 , wherein a first current mirror of the one or more of current mirrors comprises a first current mirror transistor coupled to a pass transistor of the LDO regulator. 7 . The regulator circuitry of claim 1 , wherein the load current shared by the first supply voltage and the second supply voltage includes a first load current portion provided by the first supply voltage and a second load current portion that is provided by the second supply voltage, and wherein the second load current portion is generated by a replica current from the first load current portion. 8 . The regulator circuitry of claim 1 , wherein the current control circuit comprises at least two current mirrors, wherein at least two of the current mirrors have different mirror ratios. 9 . The regulator circuitry of claim 1 , wherein the current sharing point is the load current reaching a threshold current value, and wherein the current control circuit comprises a programmable current source used to set the threshold current value. 10 . A method, comprising: receiving a first supply voltage at a first portion of a voltage regulator, the voltage regulator configured to provide an output current drawn by a load; receiving a second supply voltage at a second portion of the voltage regulator, the second supply voltage being received from a different input supply than the first supply voltage; prior to the output current drawn by the load meeting a current sharing point, providing the output current from only the first supply voltage; and responsive to the output current drawn by the load meeting the current sharing point, initiating, via a current control circuit of the voltage regulator, current sharing between the first supply voltage and the second supply voltage of the voltage regulator, wherein the output current is provided by both the first supply voltage and the second supply voltage. 11 . The method of claim 10 , wherein the first portion of the voltage regulator comprises an error amplifier and a first pass transistor, wherein the first supply voltage is provided to a first source/drain of the first pass transistor. 12 . The method of claim 11 , wherein the second portion of the voltage regulator comprises a second pass transistor, wherein the second supply voltage is provided to a first source/drain of the second pass transistor. 13 . The method of claim 12 , wherein the first portion of the voltage regulator is a low dropout (LDO) voltage regulator. 14 . The method of claim 12 , wherein a second source/drain of the first pass transistor is commonly coupled to a second source/drain of the second pass transistor. 15 . The method of claim 10 , wherein the method includes: receiving a third supply voltage at a third portion of the voltage regulator, the third supply voltage being received from a different input than both the first supply voltage and the second supply voltage; and responsive to the output current drawn by the load meeting another current sharing point, initiating, via the current control circuit of the voltage regulator, current sharing between the first supply voltage, the second supply voltage, and the third supply voltage of the voltage regulator such that the output current is provided by the first, the second, and the third supply voltages. 16 . An apparatus, comprising: a number of components of a memory system; and a controller of the memory system coupled to the number of components and comprising regulator circuitry configured to provide power to various portions of the memory system; wherein the regulator circuitry comprises: a first portion including a regulator having a first input power supply associated with a first power domain; and a second portion comprising a pass transistor having a first source/drain coupled to a second input power supply associated with a different power domain, the second input power supply being a different input supply than the first input power supply; and wherein the regulator circuitry is configured to: provide load current from the first input power supply until the load current meets a current sharing point; and responsive to the load current meeting the current sharing point, split the load current between the first input power supply and the second input power supply. 17 . The apparatus of claim 16 , wherein the pass transistor is a first pass transistor, and wherein the regulator includes an error amplifier having an output coupled to a gate of a second pass transistor coupled to the first input power supply. 18 . The apparatus of claim 17 , wherein a gate of the first pass transistor is coupled to a current control circuit configured to activate current sharing between the first input power supply and the second input power supply when the load current reaches the current sharing point. 19 . The apparatus of claim 16 , wherein the regulator is a low dropout (LDO) regulator. 20 . The apparatus of claim 16 , wherein the first input power supply is an input/output (I/O) supply, and wherein the second input power supply is a different supply having a higher voltage than the I/O supply.