1. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 1 MEIDEX - Crew Tutorial Software Adam D. Devir, MEIDEX Payload Manager

2. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 2 The PGSC4130 Software The PGSC Operator Display Main Page Menu  Command Generator Display  Relay Commanding Display  Truss Control display Secondary Page Menu  Xybion Command Display  Digital Telemetry Display  Temperature Display Additional page Menu  Xybion Telemetry Display  EU Data Display

3. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 3 The PGSC4130 Flight Software 1 33 The MEIDEX Software Package consists of two Computer Software Configuration Items (CSCIs) which execute in a master/slave configuration. The master CSCI resides on the Payload and General Support Computer (PGSC). It provides the capability to setup, monitor, and control the experiment. An alternate command and control capability will be available via the remote PGSC in the Payload Operations Control Center (POCC). The PGSC in the POCC is also referred to as Customer Ground Support Equipment (CGSE). The slave CSCI resides in the C&DH electronics and responds to commands/requests from the PGSC to control the experiment and to telemeter the experiment’s health and status.

4. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 4 PGSC Operator Interface 1 33 When the PGSC software is started the PGSC Operator Interface is displayed. The red and yellow limit violations are in the current telemetry packet. The PGSC is operated by a series of menu and button controls that are spread at the top of the screen. By pressing the OpenComm the PGSC communication port is open (green) and shut (red). This button can be activated by “Comm Control” Pressing the AutoTlm toggles automatic generation of telemetry request command: green is for request enable and red is for request not enable. “Pages” opens 17 secondary window displays through which the operator can control the payload and get the status of different functions of the payload instrumentation. 10 of these windows can be opened by the buttons in the second row of this window. The most important windows displays will be described herein.

5. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 5 Main Page Menu – Initiation

6. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 6 The left scrolling display allows the operator to select a command. The command and parameter(s) selected by the operator will appear in the command buffer display below the scrollable displays. The “XMIT” control Forwards the command buffer to the communication port. The “CLEAR” control clears the command buffer. Commands and parameter values may also be entered manually in the command buffer display. Command Generator Display – Description

7. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 7 The control of the payload from either the Orbiter PGSC or the POCC PGSC cannot be initiated until one of these two PGSC (the Master) takes over the control signifying to the second PGSC (the slave) that the control is in the other hands. This is done by scrolling to “IMTAKINGOVER” and clicking “XMIT”. By this command the master PGSC can initiate its control over the payload. Command Generator Display – Initiation

8. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 8 Commands and parameter(s) value(s) may also be entered manually in the command buffer display. For example, the Configuration of the Date in the Xybion camera can be set by entering the Month, Day and Year settings. Command Generator Display Continued

9. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 9 Commands and parameter(s) value(s) may also be entered manually in the command buffer display. For example, the Configuration of the Time in the Xybion camera can be set by entering the Hour, Minute and Seconds (00) settings. The “XMIT” will be clocked two seconds before the next minute. Command Generator Display Continued

10. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 10 Command Generator Display – Important Commands The following commands are currently defined as “operationally important” in the PGSC configuration file: IMTAKINGOVER CHD_RESET PSWLIMIT NSWLIMIT OVERCURRENTLIMIT When an Operationally Important command is selected from the Command Generator Display and “transmit” control clicked, the operator will be shown the confirmation dialog illustrated. Click “OK” transmit the command For “PSWLIMIT” and “NSWLIMIT” see - Truss Pointing Display. “OVERCURRENT” value is set by OSC to be 2.5Amp. (See CDR) - motor stall current is 5.2Amp.

11. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 11 Command Generator Display – Relay List

12. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 12 Command Generator Display – CMD List

13. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 13 Command Generator Display – CMD List Continued

14. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 14 Command Generator Display – CMD List Continued

15. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 15 Relay Commanding Display This display provides a quick means to command the experiment electric relays without going to the command generator display. To select a command, place the cursor on it and press the mouse left button. The command selected will appear highlighted in green above the “Xmit” button. The command will be executed by pressing the “Xmit” button. The switch-position light (to the right of the relay command pairs) will turn green if the corresponding relay is closed.

16. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 16 Truss Pointing Display This displays provides a visual presentation of: Camera truss orientation Truss telemetry information Command window to transmit truss pointing commands.  Telemetry points provide truss motor power, current and temperature, limit switch position indication, slew count and direction, software stop, truss status and truss angle parameters.  Slew commands are entered in the red truss commanding box as direction (+/-) and the relative truss angle (in degrees) to slew.  The camera truss orientation gives a visual depiction of the truss position in relation to the -Z direction

17. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 17 Truss Pointing Display Continued The truss slew rate is 1 degree/sec. The truss point command is actually two commands sent sequentially  The first command is a “set direction” relay command, which sets the direction of movement (via RELAYK15)  The second command is the “counts” command which contains a two byte integer which indicates to the C&DH during how many 0.1 second counts it will apply power to the truss. The “set direction” command will not be executed if a truss movement is ongoing. The “counts” command will not be executed unless a “set direction” command has been received The control of the motion of the truss is through a series of “counts” where each count corresponds to 0.1 seconds of motor motion. The C&DH controls the number of these counts.

18. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 18 The truss slew rate is 1 degree/sec The truss has four stop settings:  A mechanical stop that stops the truss at  30 degrees  A hardware stop (micro switch) that “kills” the motor current (and changes its direction) when mechanically triggered (exceeded) at  27 degrees  A software stop (*) that stops the truss at  25 degrees. If these stops are exceeded the C&DH stops the motor power.  A command stop(**) that stops the truss motion at  21 degrees. The C&DH validate truss pointing commands to verify that motion past the software stops (  25 degrees) will not be exceeded - a command past the software stop will be discarded. The C&DH removes power from the truss motor in the event of a motor over current condition (*) The software stops commands (PSWSTOP and NSWSTOP) – (see the Command Generator Display) write new values to the upper(positive) and lower (negative) software stops of the truss motor assembly. Each command has one parameter the upper or lower stop values (0-255 counts converted from degrees input by the operator) where each count is 0.1sec (or 0.1degree) of truss motion. (**) The software limit commands (PSWLIMIT and NSWLIMIT) – (see the Command Generator Display) write new values to the upper(positive) and lower (negative) software limits of the truss motor motion Truss Pointing Display Continued

19. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 19 Secondary Page Menu

20. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 20 This display provides the primary operations interface for the Xybion camera. To select a command to the Xybion camera, click on the command name. Enter the parameter value (if the command has a parameter). Click the “Xmit” button to send the command. The report transfers the Xybion flight data setting into the telemetry stream either in text format or in encoded format Xybion Command Display Xmit with no selection send Character

21. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 21 In MEIDEX the Xybion camera will always be operated in the Peak Video Mode. However, to avoid saturation (GL >255) it was found that the configuration of the Peak Video Level (PVL) has to be lower than 250 and its value strongly depends on the area of the ROI that will take the peak (the maximal) radiance level. This data is very important especially in case of sprites or small clouds or land features (islands) that may be saturated if the PVL is not properly set. Xybion Command Display Continued Xmit with no selection send Character

22. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 22 This page displays the status of all bi- level telemetry points in telemetry packet. Green button lights on the digital display generally represent “ON” or safe/normal condition.”White” lights are “OFF” or unsafe/not normal. The bars below the VCR panels represent the progress bars for the VCR tape usage. As the VCR records images, the elapsed seconds display updates. In the event that the PGSC is interrupted, the progress bar may be re-synchronized by entering down the time difference in the “elapsed offset” space. To enable this feature, select the “Use Offsets” control. Digital Telemetry Display

23. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 23 This display shows the temperatures (C) of several key experiment monitoring points as measured by thermistors (-20C to +80C accuracy  1C).The thermistor locations are: The C&DH box (on one of the 4 boards located in it). The three VCRs. Thermostat #1 - located near the thermostat #1 (of heater #1) just above the video buffer. Thermostat #2 - located on the bracket of heater #2 (below the window). Thermostat #3 - located on thermostat plate on the Avionics Mounting Plate (AMP) located ~ 6” above the Lower End Plate (LEP). Near the motor brake. In the Electronic Power System (EPS) - on buss A. In the EPS - on buss B. On the heat exchange fins of heater #1 - above the video buffer. On the heat exchange fins of heater #2 - below the window. Temperature Display

24. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 24 The “Down-Stairs Wisdom” Syndrome

25. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 25 Thermistor Locations ( ) Sekai ADVCRs Video Buffer Electrical Power System (EPS) (on the 2 buss boards) C&DH Enclosure (on one of the 4 buss boards) Junction Box Lower End Plate (LEP) Sekai CCD P/S Avionics Mounting Plate (AMP) Heater #1 (on fins) Thermostat #1 (above the buffer) Thermostat #3 (On Thermostat plate mounted on the AMP)

26. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 26 Thermistor Locations ( ) Heater #2 (on fins) Thermostat #2 (on fan bracket)

27. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 27 Thermistor Locations ( )

28. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 28 Additional Page Menu

29. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 29 The Xybion camera telemetry display displays the Xybion camera flight data text block in response to a Xybion camera telemetry request. There will be an interruption in the normal telemetry stream of 3-4 cycles when Xybion camera telemetry is processed. The content of the Xybion flight data text block is: Firmware version number Time and date stamp Frame count CCD temperature (degrees Centigrade) Filter position and filter locked flag Current video level Auto Exposure Mode Peak and Average Target Levels Current exposure time and mode Manual exposure list Index filter number indices Intensifier gain readout and setting IRIG board present flag IRIG mode Internal clock synchronization flag IRIG code Xybion Camera Telemetry Display

30. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 30 The EU (Engineering Units) telemetry display shows the telemetry data in converted and limit form. Parameters exceeding red or yellow limit violation are displayed in yellow or red type. The display contains all telemetry parameters and updates every 8 seconds. EU Data Display

31. October 29-30, 2001MEIDEX - Crew Tutorial - SoftwareH - 31 END Crew Tutorial - Software