1. TRIO-CINEMA 1 UCB, 2/08/2010 Instrument Interface Board Dorothy Gordon CINEMA - EE Team Space Sciences Laboratory University of California, Berkeley

2. TRIO-CINEMA 2 UCB, 2/08/2010 Instrument Interface Board Agenda AGENDA Overview Block Diagrams Requirements Instrument Interface Board Components Development Plan Issues

3. TRIO-CINEMA 3 UCB, 2/08/2010 Overview Instrument Interface Board houses LVPS, Communication Interface Logic and Miscellaneous Buffers/Drivers Overall Context

4. TRIO-CINEMA 4 UCB, 2/08/2010 Instrument Interface Board Block Diagram

5. TRIO-CINEMA 5 UCB, 2/08/2010 Requirements Level 1 Mission Assurance MA-01Mission Life1 year + Verification: Parts selection shall choose from ruggedized and historically rad- tolerant part types. MA-02QualityUse high quality commercial parts, space flight fabrication techniques. Utilize extensive testing to achieve reliability. Cost MA-03RadiationUse rad tolerant parts where possible without significantly impacting cost. Consider spot shielding of critical parts with little shielding by the bus. Some form of solar cell protection (cover glass) probably required to meet mission life. Expected 1 year dose is 10krads behind 1mm Al, 3krads behind 2mm Al Cost

6. TRIO-CINEMA 6 UCB, 2/08/2010 Requirements Level 3 Sun Sensor (2x) SUN-03 Interface pull-up resistor, filter cap, discriminator on FPGA card; timing circuit on FPGA times rising edge, available to C&DH Sensor Interface Requirement By Design/Inspection Level 3 Torque Coils (2x) TRQ-03 Interface Bus power switches controlled by PWM on Instrument Interface Card. Switches may be on LVPS card or Instrument Interface Card (TBR) Torque Coil Interface Requirement IIB houses both LVPS and Torque Coil Drivers Level 2 IIB (Instrument Interface and Power Board) IIB-01Primary Primary voltage is ~8V bus voltage (7-9V, TBR) IIB-02Secondary Provide +/-5V, +/-12V, +20V regulated secondaries (no primary ground isolation required) Currents TBD. Also +5VD, +3.3VD, +1.5VD [TBR}, some of which may be provided by EPS Design/Test IIB-03 Torque Coil Switches Provide primary voltage switches controlled by 4 logic signals that allow you to power the two coils with either polarity. Design/Test IIB-04 Other switches Provide primary voltage switches for: MAGIC boom actuator, MAG 12V and 16V, STEIN actuators (2x), Transmitter, HVPS Design/Test STEIN Actuators (now on STEIN?) IIB-05 STEIN Bias Supply Provide programmable 0-150V bias supply. Supply must be very quiet but provides almost no DC load. Design/Test (now on STEIN?)

7. TRIO-CINEMA 7 UCB, 2/08/2010 Requirements IIB-06C&DH Interface High speed interface to C&DH (>1Mbps)1Mbps transmitter IIB-07 Transmitter Interface Take data stream provided by C&DH (CCSDS packets? Partially formatted CCSDS frames?), append CCSDS transfer frame, RS encoding, Convolutional encoding, and provide serial data stream to transmitter (filtered?) at 1Mbps Design and Test/Verification IIB-08STEIN Interface Interface to STEIN ADCs (TBR - STEIN ADC board may have ADC interface FPGA). Format event telemetry stream. Apply decimation of low energy events based on control from C&DH. Format a second stream of rate counter data (LLD, ULD per detector). Transfer data stream to C&DH Design: Input Data from CDI Interface, Transfer to CPU via SPI, FIFO Buffer with status to CPU IIB-09LVPS Interface Provide logic signals to the LVPS to control the MAGIC boom actuator, HV and transmitter power switches (TBR), STEIN attenuator actuator switches, and torque coils Design/Test IIB-10Torque Coils Provide a programmable duty cycle PWM to run the selected torque coil switch. PWM should run at ~100KHz and be programmablle in 1% or better increments. No more than one switch should be active at a time (4 switches for torque coils - one per polarity per coil, selected by C&DH). Design/Test IIB-11STEIN HVPS Provide 2 DAC outputs to control STEIN HV by C&DH command Now on STEIN IIB-12STEIN Bias Provide 1 DAC output to LVPS to set STEIN detector BIAS supply level by C&DH command Now on STEIN IIB-13STEIN thresholds Interface with 4 threshold DACs on STEIN electronics Now on STEIN IIB-14 Board HeightNot to exceed.984" (25mm)Fits within stack

8. TRIO-CINEMA 8 UCB, 2/08/2010 Instrument Interface Board Components (1) Instrument Interface Board Components Master Clock (2 24): 16.8MHz Timing Synchs as needed (e.g. 1Hz Synch to STEIN) Derived Clocks (4.2MHz to MAG, 8.4MHz to STEIN) Timestamps Telemetry Frames Provides Time information to CPU (via Register Interface) FPGA Telemetry Framer Interface Translator/Parser Uses I 2 C for internal registers, STEIN CDI commands and internal setup configuration (switches, actuators, PWM Control, etc) Provides a path for STEIN Message Data CDI from STEIN to SPI to CPU FIFO buffered – FIFO Status Available to CPU Provides SPI Interface to MAG for ADC Control and Readout Register Banks FIFOs as needed for STEIN and Telemetry Control

9. TRIO-CINEMA 9 UCB, 2/08/2010 Instrument Interface Board Components (2) Instrument Interface Board Components (continued) Specialized Buffers/Drivers Actuators Torque Drivers (4) One PWM signal from FPGA is steered to one of four Torque Converters Sun Sensor Receivers (2) Open Collector Receiver with Pull-up and Filter Cap – Logic signal forwarded to the FPGA for further filtering Switches Torque Coil and Power, Actuator Switches, Emhiser Card, (others?) Low Voltage Power Supply Receive Primary Power (7-9 VDC) Produce Secondary Voltages – use off the shelf regulators +/-5V, +/-12V, +20V regulated secondaries (no primary ground isolation required), +5VD, +3.3VD, +1.5VD

10. TRIO-CINEMA 10 UCB, 2/08/2010 Data Rates IIB/IIF is the Conduit Between the various CINEMA Subsystems –Must provide the 1Mbps continuous data stream to the S-Band transmitter Framing performed in hardware CPU provided fully formatted CCSDS packets via the SPI link Fill generated by hardware when no processor data is available –SPI Data to/from CPU Used for S-Band Telemetry and STEIN Data (only one active at any one point in time) ~10MHz –STEIN – CDI Message Interface 16 bits/event, 80KHz events = 1.28Mbps Interface bit rate = 8.4MHz, Data rate = 4Mbps (includes CDI Protocol and Message Tag Overhead, “fixed message size” mode) –MAGIC Interface 20 bits/sample x 20 samples/second x 3 axes = 0.001Mbps I 2 C to/from CPU SPI (resident in IIF) to/from MAG

11. TRIO-CINEMA 11 UCB, 2/08/2010 Development Plans Development Specification for FPGA (in progress, David Clarino) Parts Selection and Overall Design –Power Supply Modules –Custom Design as needed –Buffer, Switches and Driver circuits Board Schematic (not yet started) CINEMA System Verification using Engineering Board Flight Board (relayout if necessary) follows test/verification Load into Flight System Joins CINEMA Test Flow and Quality reporting

12. TRIO-CINEMA 12 UCB, 2/08/2010 Issues IIF/IIB Some requirements are still TBD Personnel for schematics and board layout