Selection valves of fluid supply systems

The invention claimed is: 1. A selection valve for a fluid supply system, the selection valve is to: selectively couple a source of pressurized air to one of a first fluid supply cartridge and a second fluid supply cartridge in the fluid supply system to provide fluid to a printhead, one of the first fluid supply cartridge and the second fluid supply cartridge being coupled to the source of pressurized air at a time, and the other fluid supply cartridge being vented to the atmosphere, wherein the selection valve comprises: a sleeve comprising a first port to connect with the source of pressurized air, a second port to connect with the first fluid supply cartridge, a third port to connect with the second fluid supply cartridge, and a fourth port to connect with the atmosphere; a core disposed rotatably inside the sleeve, wherein the core is rotatable to a first position to fluidically connect the second port to the first port to pressurize the first fluid supply cartridge with the pressurized air, and fluidically connect the third port to the fourth port to vent the second fluid supply cartridge to the atmosphere, and wherein the core is rotatable to a different second position to fluidically connect the third port to the first port to pressurize the second fluid supply cartridge with the pressurized air, and fluidically connect the second port to the fourth port to vent the first fluid supply cartridge to the atmosphere. 2. The selection valve of claim 1 , further comprising: a flag that engages with the core; a power source; and a cluster gear to engage the flag with the power source, wherein the power source provides friction torque for rotation of the flag which in turn is to rotate the core inside the sleeve. 3. The selection valve of claim 2 , wherein the power source comprises a direct current (DC) motor. 4. The selection valve of claim 2 , further comprising: an optical sensor to determine a position of the selection valve based on movement of at least one of the flag or the core, wherein the position of the selection valve is one of a first position where the first fluid supply cartridge is coupled to the source of pressurized air, and a second position where the second fluid supply cartridge is coupled to the source of pressurized air, and wherein the selection valve is stable and unpowered in both the first and second positions of the selection valve. 5. The selection valve of claim 1 , wherein the fluid comprises an ink. 6. A fluid supply system, comprising: a first fluid supply cartridge and a second fluid supply cartridge; a source of pressurized air; and a selection valve to selectively couple the source of pressurized air to one of the first fluid supply cartridge and the second fluid supply cartridge to provide fluid to a fluid dispensing device, the one of the first fluid supply cartridge and the second fluid supply cartridge being coupled to the source of pressurized air at a time, and the other fluid supply cartridge being vented to the atmosphere, wherein the selection valve comprises: a sleeve comprising a first port to connect with the source of pressurized air, a second port to connect with the first fluid supply cartridge, a third port to connect with the second fluid supply cartridge, and a fourth port to connect with the atmosphere; a core disposed rotatably inside the sleeve, wherein the core is rotatable to a first position to fluidically connect the second port to the first port to pressurize the first fluid supply cartridge with the pressurized air, and fluidically connect the third port to the fourth port to vent the second fluid supply cartridge to the atmosphere, and wherein the core is rotatable to a different second position to fluidically connect the third port to the first port to pressurize the second fluid supply cartridge with the pressurized air, and fluidically connect the second port to the fourth port to vent the first fluid supply cartridge to the atmosphere. 7. The fluid supply system of claim 6 , wherein the power source comprises a direct current (DC) motor. 8. The fluid supply system of claim 6 , wherein the selection valve further comprises: a flag that engages with the core; a power source; and a cluster gear to engage the flag with the power source, wherein the power source provides friction torque for rotation of the flag which in turn rotate the core inside the sleeve. 9. The fluid supply system of claim 6 , wherein the source of pressurized air comprises an air pumping device, and wherein the fluid comprises an ink. 10. A fluid supply method, comprising: selecting one of a first fluid supply cartridge and a second fluid supply cartridge; and controlling a selection valve to selectively couple a source of pressurized air to the one of the first fluid supply cartridge and the second fluid supply cartridge to provide fluid to a printhead, the one of the first fluid supply cartridge and the second fluid supply cartridge being coupled to the source of pressurized air at a time and the other fluid supply cartridge being vented to the atmosphere, wherein the selection valve comprises: a sleeve comprising a first port to connect with the source of pressurized air, a second port to connect with the first fluid supply cartridge, a third port to connect with the second fluid supply cartridge, and a fourth port to connect with the atmosphere; and a core disposed rotatably inside the sleeve, wherein the core is rotatable to a first position to fluidically connect the second port to the first port to pressurize the first fluid supply cartridge with the pressurized air, and fluidically connect the third port to the fourth port to vent the second fluid supply cartridge to the atmosphere, and wherein the core is rotatable to a different second position to fluidically connect the third port to the first port to pressurize the second fluid supply cartridge with the pressurized air, and fluidically connect the second port to the fourth port to vent the first fluid supply cartridge to the atmosphere. 11. The fluid supply method of claim 10 , wherein selecting the one of the first fluid supply cartridge and the second fluid supply cartridge comprises: detecting fluid levels for respective ones of the first fluid supply cartridge and the second fluid supply cartridge; and selecting the one of the first fluid supply cartridge and the second fluid supply cartridge based on the fluid levels. 12. The fluid supply method of claim 10 , wherein the fluid comprises an ink. 13. The selection valve of claim 4 , wherein the optical sensor is to provide a first indication responsive to the selection valve being at the first position of the selection valve or the second position of the selection valve, and the optical sensor is to provide a second indication responsive to the selection valve being at an intermediate position between the first and second positions of the selection valve, the second indication different from the first indication. 14. The selection valve of claim 13 , wherein the power source is to switch off responsive to the first indication from the optical sensor, and the power source is on responsive to the second indication from the optical sensor. 15. The fluid supply system of claim 8 , wherein the selection valve further comprises: an optical sensor to determine a position of the selection valve based on movement of at least one of the flag or the core, wherein the position of the selection valve is one of a first position where the first fluid supply cartridge is coupled to the source of pressurized air, and a second position where the second