Controller, control system, and control method

The invention claimed is: 1. A controller, said controller being connectable to at least a first field device and a second field device which controls a control target via a network, the controller comprising: circuitry configured to at least: receive first data transmitted from the first field device via the network, the first data containing first time information indicating a time at which the first data was generated or transmitted; adjust a timing so that second data for controlling the control target is started to be generated at a timing when a period of time, which is obtained by subtracting a difference between the time indicated by the first time information and a time at which the first data was received from a maximum delay time tolerated by the network, has elapsed from a point at which the first data was received; generate the second data using the first data at the adjusted timing; compensate for delays in transmission time of the first and second data that can occur in the network; and transmit the second data to the second field device, wherein the circuitry is configured to further: compensate for the delays by feeding back a difference between present measurement data and data output from a delay element where the maximum delay times tolerated by the network are set. 2. A control system comprising a controller, said controller being connectable to at least a first field device and a second field device which controls a control target via a network, the controller comprising: circuitry configured to at least: receive first data transmitted from the first field device via the network, the first data containing first time information indicating a time at which the first data was generated or transmitted; adjust a timing so that second data for controlling the control target is started to be generated at a timing when a period of time, which is obtained by subtracting a difference between the time indicated by the first time information and a time at which the first data was received from a maximum delay time tolerated by the network, has elapsed from a point at which the first data was received; generate the second data using the first data at the adjusted timing; compensate for delays in transmission time of the first and second data that can occur in the network; and transmit the second data to the second field device, the second field device comprising: circuitry configured to at least: consider the maximum delay time tolerated by the network; and adjust a timing of a manipulation of the control target based on the second data transmitted from the controller, wherein the circuitry in the controller is configured to further: compensate for the delays by feeding back a difference between present measurement data and data output from a delay element where the maximum delay times tolerated by the network are set. 3. The control system according to claim 2 , wherein the maximum delay time tolerated by the network includes: a first maximum delay time tolerated for data transmitted to the controller; and a second maximum delay time tolerated for data transmitted from the controller. 4. The control system according to claim 2 , further comprising circuitry configured to further: set the maximum delay time tolerated by the network with respect to the controller and the field devices. 5. The control system according to claim 2 , wherein the circuitry in the controller is configured to further: generate a setting-value for controlling the control target, at the timing adjusted by the controller, by using the first data from the first field device. 6. A control method comprising: receiving first data transmitted from a first field device via a network, the first data containing first time information indicating a time at which the first data was generated or transmitted; adjusting a timing so that second data for controlling a control target is started to be generated at a timing when a period of time, which is obtained by subtracting a difference between the time indicated by the first time information and a time at which the first data was received from a maximum delay time tolerated by the network, has elapsed from a point at which the first data was received; generating the second data using the first data at the adjusted timing; compensating for delays in transmission time of the first and second data that can occur in the network; and transmitting the second data to a second field device which controls the control target via the network, wherein the control method further comprises: compensating for the delays by feeding back a difference between present measurement data and data output from a delay element where the maximum delay times tolerated by the network are set. 7. The control method according to claim 6 , further comprising: adjusting a timing of a manipulation of the control target based on the second data transmitted. 8. The control method according to claim 6 , wherein the maximum delay time tolerated by the network includes: a first maximum delay time tolerated for data transmitted to a control device; and a second maximum delay time tolerated for data transmitted from the control device. 9. The control method according to claim 6 , further comprising: setting the maximum delay time tolerated by the network with respect to a controller and the field devices. 10. The control method according to claim 6 , further comprising: generating a setting-value for controlling the control target, at the timing adjusted, by using the first data from the first field device.