Liquid ejection apparatus and liquid ejection head

What is claimed is: 1. A liquid ejection apparatus comprising: an ejection port configured to eject a liquid; a pressure chamber configured to store the liquid to be ejected from the ejection port; an element configured to generate energy for ejecting the liquid in the pressure chamber; a first tank and a second tank each configured to be capable of storing the liquid; a flow passage configured to establish communication between the first tank and the second tank through the pressure chamber; a switching unit configured to switch a flowing direction of the liquid in the flow passage between a first direction to flow from the first tank to the second tank and a second direction to flow from the second tank to the first tank; and a pressure compensation unit configured, when a pressure in a downstream side flow passage portion of the flow passage located on a downstream side of the pressure chamber in the flowing direction of the liquid is a predetermined pressure or below, to compensate for reduction in pressure in the downstream side flow passage portion by supplying the liquid to the downstream side flow passage portion; wherein the liquid ejection apparatus further comprises a pressure control unit configured to generate a difference in pressure between the downstream side flow passage portion and an upstream side flow passage portion located on an upstream side of the pressure chamber in the flowing direction of the liquid such that the difference in pressure generates a flow of the liquid in the flow passage to cause the liquid to pass through the pressure chamber, wherein the pressure control unit includes: a first pressure controller configured to perform control such that a pressure inside the upstream side flow passage portion is set to a first pressure; and a second pressure controller configured to perform control such that a pressure inside the downstream side flow passage portion is set to a second pressure being lower than the first pressure; wherein each of the first tank and the second tank includes an air connection port configured to allow air to go into and out of the air portion in the corresponding tank, wherein the air connection port of the first tank is connected to any one of a first pressure controller and a second pressure controller through an air channel in a switchable manner by using the switching unit, the first pressure controller configured to perform the control such that the pressure inside the upstream side flow passage portion located on the upstream side of the pressure chamber in the flowing direction of the liquid is set to the first pressure, the second pressure controller configured to perform the control such that the pressure inside the downstream side flow passage portion is set to the second pressure being lower than the first pressure, and wherein the air connection port of the second tank is connected to any one of the first pressure controller and the second pressure controller through an air channel in a switchable manner by using the switching unit. 2. The liquid ejection apparatus according to claim 1 , further comprising: a communication passage configured to establish communication between the first tank and the second tank; and a valve configured to be capable of opening and closing the communication passage. 3. The liquid ejection apparatus according to claim 1 , further comprising: a pump located at a position on a downstream side of the second pressure controller in the flowing direction. 4. The liquid ejection apparatus according to claim 1 , further comprising: a bypass channel configured to connect upstream and downstream parts of the second pressure controller in the flowing direction, wherein the bypass channel includes a bypass on-off valve configured to be capable of performing opening and closing control of the bypass channel. 5. The liquid ejection apparatus according to claim 1 , wherein the pressure compensation unit includes a communication passage configured to establish communication between an air portion in the first tank and an air portion in the second tank when the pressure in the downstream side flow passage portion is the predetermined pressure or below. 6. The liquid ejection apparatus according to claim 5 , wherein the pressure compensation unit includes a passive valve configured to open and close the communication passage depending on a difference between the pressure in the downstream side flow passage portion and a pressure in an upstream side flow passage portion located on an upstream side of the pressure chamber in the flowing direction of the liquid. 7. The liquid ejection apparatus according to claim 5 , wherein the communication passage includes an on-off valve configured to be capable of performing opening and closing control. 8. The liquid ejection apparatus according to claim 1 , wherein any one of a gas-liquid separation membrane and a water-repellent filter is provided to at least one of the air connection port and the air channel of each of the first tank and the second tank. 9. The liquid ejection apparatus according to claim 7 , further comprising: an on-off valve set up in the air channel between the switching unit and the first tank, and configured to allow at least one of the liquid and/or air to go into and out of the first tank by being opened, and to be closed when power is off, wherein the switching unit includes: a first switching portion provided with an upstream end connected to a downstream part of a first pressure controller configured to perform control such that a pressure inside an upstream side flow passage portion located on an upstream side of the pressure chamber in the flowing direction of the liquid is set to a first pressure, and with a downstream end connected to an upstream part of any one of the first tank and the second tank in a switchable manner, and a second switching portion provided with a downstream end connected to an upstream part of a second pressure controller configured to perform control such that a pressure inside a downstream side flow passage portion located on a downstream side of the pressure chamber in the flowing direction of the liquid is set to a second pressure being lower than the first pressure, and with an upstream end connected to a downstream part of any one of the first tank and the second tank in a switchable manner, and wherein the first switching portion connects the downstream end of the first switching portion to the upstream part of the first tank and the second switching portion connects the upstream end of the second switching portion to the downstream part of the second tank when power is off. 10. The liquid ejection apparatus according to claim 1 , wherein the flow passage communicates with each of a plurality of the pressure chambers. 11. The liquid ejection apparatus according to claim 7 , wherein the liquid ejection apparatus is capable of ejecting a plurality of types of liquids, a plurality of sets of the first tank and the second tank are provided corresponding to the types of the liquids, each of the first tanks and the second tanks includes an air connection port configured to allow air to go into and out of the air portion in the corresponding tank, the air connection ports of the first tanks for the respective liquid types are connected to any one of a first pressure controller and a second pressure controller through an air channel by using the switching unit, the first pressure controller being configured to perform control such that a pressure inside an upstream side flow passage portion located on an upstream side of the pressure chamber in the flowing direction of the liquid is set to