Single injection valve for HPLC combining sample introduction, wash cycles and diagnosis

The invention claimed is: 1. A sample injector configured to introduce a sample fluid into a mobile phase, wherein the mobile phase is to be driven by a mobile phase drive through a separation unit for separating compounds of the sample fluid in the mobile phase, the sample injector comprising: a sample loop for receiving the sample fluid, a switchable valve for switching the sample loop between the mobile phase drive and the separation unit, wherein the switchable valve comprises; a first valve member and a second valve member, wherein at least one of the first and second valve members is configured to be moved with respect to the other; the first valve member comprises a plurality of ports; the second valve member comprises a plurality of fluid paths for fluidly coupling respective ones of the ports in dependency on a relative movement position of the first and second valve members with respect to each other; wherein the plurality of ports comprise eight circumferential ports distributed along a circumference of the first valve member and comprise one central port arranged at a central position of the first valve member; wherein one of the circumferential ports has an extension groove; wherein the plurality of fluid paths comprise three arcuate fluid paths each being arcuate so as to be couplable with at least two of the circumferential ports; wherein the plurality of fluid paths comprise one straight fluid path extending between the central position and a circumferential position so as to be couplable with the central port and with one of the circumferential ports. 2. A sample injector for use in a fluid separation system for separating compounds of a sample fluid in a mobile phase, the fluid separation system comprising a mobile phase drive to drive the mobile phase and comprising a separation unit for separating compounds of the sample fluid in the mobile phase, the sample injector comprising: exactly one switchable valve; a sample loop in fluid communication with a port of the valve and configured for receiving the sample fluid; a needle in fluid communication with the sample loop; a seat for receiving the needle; a seat capillary in fluid communication with the seat and with a port of the valve; wherein the valve is configured to be switchable no as to activate at least one selected of the following operation modes; a) a bypass mode in which the valve fluidically couples the mobile phase drive with the separation unit via the valve; b) a flush mode in which the valve enables flushing of at least one of the group consisting of the needle and the seat; c) a block mode in which the valve fluidically couples at least the sample loop, the needle, the seat and the seat capillary to one another and fluidically decouples at least the sample loop, the needle, the seat and the seat capillary from the mobile phase drive and from ambient pressure. 3. The sample injector of claim 2 , wherein the valve is configured to be switchable in a wash mode in which an exterior of the needle is washed. 4. The sample injector of claim 2 , wherein the valve is configured to be switchable in a sample fluid intake mode in which the sample fluid is intaken into the sample loop via the needle by a metering device. 5. The sample injector of claim 2 , wherein the valve is configured to be switchable in a diagnosis mode in which a selectable fluidic part of the fluid separation system is diagnosable, particularly with respect to at least one of the group consisting of blockage of the fluidic part and leakage in the fluidic part. 6. The sample injector of claim 2 , wherein the valve is configured to be switchable in a sample fluid injection mode in which the sample fluid is injected into a fluidic channel between the mobile phase drive and the separation unit. 7. The sample injector of claim 2 , comprising at least one of the following features: the sample injector further comprises a metering device in fluid communication with two ports of the valve and configured for introducing a metered amount of the sample fluid on the sample loop, wherein the valve is configured to be switchable so that in the block mode the valve fluidically decouples also the metering device from the mobile phase drive and from ambient pressure; the valve is configured to be switchable so that the valve enables back flushing of the seat in the flush mode; the sample injector further comprises a flush pump, particularly exactly one flush pump, in fluid communication with a port of the valve and configured for flushing of at least one of the group consisting of the needle and the seat; the sample injector further comprises a wash port in fluid communication with a port of the valve and configured for washing the needle, particularly for washing selectively an exterior surface of the needle or an interior surface of the needle; the valve is configured according to claim 1 . 8. A sample injector for use in a fluid separation system for separating compounds of a sample fluid in a mobile phase, the fluid separation system comprising a mobile phase drive to drive the mobile phase and comprising a separation unit for separating compounds of the sample fluid in the mobile phase, the sample injector comprising: exactly one switchable valve; a sample loop in fluid communication with a port of the valve and configured for receiving the sample fluid; a needle in fluid communication with the sample loop; a seat for receiving the needle; a seat capillary in fluid communication with the seat and a port of the valve; exactly one flush pump in fluid communication with a port of the valve and configured for flushing of at least one of the group consisting of the needle and the seat; a wash port in fluid communication with a port of the valve; wherein the valve is configured to be switchable so as to activate at least one selected of the following operation modes: a) a sample path flush mode in which at least the sample loop, the needle, the seat and the seat capillary are flushed by the flush pump; b) a seat back flush mode in which the seat is back flushed by the flush pump; c) a needle wash mode in which the needle is washed in the wash port. 9. The sample injector of claim 8 , wherein the needle wash mode comprises at least one of the group consisting of an external needle wash mode in which an external surface of the needle is washed in the wash port, and an internal needle wash mode in which an internal surface of the needle is washed in the wash port. 10. The sample injector of claim 8 , wherein the valve is configured to be switchable so as to activate at least one selected of the following operation modes: a) a bypass mode in which the valve fluidically couples the mobile phase drive with the separation unit via the valve; b) a block mode in which the valve fluidically decouples at least the sample loop, the needle, the seat and the seat capillary from the mobile phase drive and ambient pressure; c) a sample fluid intake mode in which the sample fluid is intaken into the sample loop via the needle driven by a metering device in fluid communication with two ports of the valve and configured for introducing a metered amount of the sample fluid on the sample loop; d) a diagnosis mode in which a selectable fluidic part of the fluid separation system is diagnosable, particularly with respect to at least one of the group consisting of blockage of the fluidic part and leakage in the fluidic part; e) a sample fluid injection mode in which the sample fluid is injected into a fluidic channel between the mobile phase drive and the separation unit. 11. The sample injector of claim 8 , wherein the switchable valve comprises;