Texas Instruments
Simplifying your space design Designing reliable systems for space environments
• Space reference designs, ICs and resources
• Space products guide
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Mark Toth
Marketing Manager // High Reliability
Agenda
• What’s new from Texas Instruments?
• Design challenge: reduced solution size
– Using TI space reference designs to reduce board space
• Design challenge: sensing and controls
– Simplifying and shrinking IC die temperature measurements
– Sensing currents across a wide range of voltage rails in a small package
• Design challenge: space power
– Reducing board space and complexity of cold sparing and power switching solutions
• Design challenge: high speed communications
– Replacing large, non-linear Baluns with a small, high-speed fully-differential amplifier
Power
Concept
Data Converter Amplifiers Interface/Clocking Embedded Processing
Recently Released
In Development
SMV320C6727B-SP 32/64-Bit Floating-Point
Digital Signal Processor
SMJ320C6701-SP 32-Bit Floating-Point
Digital Signal Processor
Space Products Roadmap
2017
2018
2019
MSP430FR5969-SP Mixed Signal
Microcontroller with FRAM
TPS50601-SP Current-Mode
POL DC-DC Converter
TPS7H1101A-SP 1.5 -7V Input, 3 Amp, LDO
TPS7A4501-SP 2.3-20V Input Low
Dropout Voltage Regulator
TPS7H3301-SP 3A Source-Sink DDR
Termination Regulator
ADC12D1600QML-SP 12-bit, 3.2 GSPS RF ADC
ADS5474-SP 14-bit, 400 MSPS ADC
DAC5670-SP 14-bit, 2.4 GSPS DAC
THS4511-SP Differential Amplifier
1.1 GHz BW
LMP2012QML-SP Dual, Precision
Rail-to-Rail Output Op-Amp
LM139AQML-SP Low Power, Low Offset
Voltage Quad Comparator
LMH5401-SP 6+ GHz Wideband Fully Differential
Amplifiers (FDAs)
SN55LVDS31/2-SP 3.3V Quad LVDS Driver/Receiver
TLK2711-SP 2.5 Gbps SerDes
Transceiver
SN55HVD233-SP 3.3V CAN Transceiver
ADC12DJ3200QML-SP 12-bit, 6.4 GSPS RF
ADC, JESD204B
TPS50601A-SP Current-Mode, 6Amp
POL DC-DC Converter
ADS1282-SP 24/32 Bit Precision ADC
w/integrated PGA & 2 channel MUX
OPA4277-SP
Quad Precision Op Amp
CDCLVP111-SP 10MHz – 3.5GHz
LVPECL/LVDS clock buffer
Released
Development
TPS50602-SP Current-Mode, 6 or 12Amp
POL DC-DC Converter
ADC12D1620QML-SP 12-bit, 3.2 GSPS RF ADC 1Q19
1Q18
4Q18 TPS7H2201-SP
6.3 V, 6 A Load Switch w/Current Limiting + RCP
TMP461-SP: Remote Diode Temp Sensor
(I2C)
Sensors & Control
Click on recently released parts to pull up datasheet.
TI Radiation Reports available. Visit TI.com or speak
with your account manager for more details.
1Q19
New!
New!
New!
New!
New!
New! New!
New! CDCM7005-SP
PLL Clock Synchronizer and Jitter
Cleaner
INA901-SP: 80V Voltage Out Current Sensor
4Q18
ADC128S102QML-SP 12-Bit, 8-ch, 50KSPS-
1MSPS, SPI
4Q19
ADS1278-SP 24-bit, 8-ch, 144 KSPS Simultaneous sampling
ADC 4Q18
New!
New Product Schedule • Power Management
– TPS50601A-SP 6A Point-of-load DC/DC Converter, improved (Released April 2018)
– TPS50602-SP 2x6A point-of-load DC/DC Converter (Samples Now, QMLV RTM 1Q19)
– TPS7H2201-SP 6A Load Switch (Samples Now, QMLV RTM 1Q19)
– UC1825B-SP, UC1843B-SP, UC1875B-SP TID-improved PWM controllers (RTM 1Q19)
• High Speed Communications
– LMH5401-SP 3GHz Fully Differential Amplifier (Released 4Q17)
– ADC12DJ3200QML-SP 12-bit 3.2Gsps JESD204 ADC (Samples Now, RTM 4Q18)
• Signal Processing and Control
– TMP461-SP Remote Diode Temperature Sensor (Released 4Q17)
– SN55HVD233-SP CAN Interface (Released 4Q17)
– MSP430FR5969-SP Low-power microcontroller (Plastic, Released 4Q17)
– OPA4277-SP Quad Precision Op-Amp (KGD: Released, Package: 4Q18)
– INA901-SP High Common-Mode Voltage Current Sense Amplifier (Samples 3Q18, RTM 4Q18)
ADC12D1620QML-SP
2-ch 1.6-GSPS, 1-ch 3.2-GSPS ADC
LMH5401-SP
6.5-GHz Fully Differential Amplifier
LMX2615-SP
40-MHz to 15-GHz PLL/VCO Clock
CDCLVP111-SP
1:10 LVPECL Clock Driver
TMP461-SP and LMT01-SP
High accuracy remote diode and PCB temp sensors
MSP430FR5969-SP
Mixed-Signal Microcontroller
Space Grade Power
TPS50601A-SP, TPS7H1101A-SP, LP2953QML-SP, TPS7A4501-SP
Direct RF Down Conversion
Wideband Communications Payloads
Synthetic Aperture Radar (SAR) or LIDAR Payloads
TSW12D1620EVM-CVAL TI’s First Space Grade Wideband Receiver Reference Design
• Wideband Receiver Reference Design
• Includes space grade amplifier, ADC, clocking, temperature
sensor, microcontroller and power solution
• Sample to 2.4-GHz at 1.6-GSPS
• Sample to 1.6-GHz at 3.2-GSPS
• Fully Differential Amplifier provides SE-to-DIFF conversion
• External DIFF input option
Features Key Space Grade Devices
Sampling
TSW12D1620EVM-CVAL
ADC12D1620QML-SP
CLK
ADC
ADC
TMP461-SP
LV
DS
LMH5401-SP
MSP430FR5969-SP CDCLVP111-SP
TPS50601A-SP
TPS7H1101A-SP
LP2953QML-SP
TPS7A4501-SP
Analog In
= SMA
TMSTP+/-
LMX2615-SP
TSW14DL3200EVM
Xilinx
KintexTM
XCKU060
FPGA
FMC
to
Samtec
SearayTM
Adapter
USB3 1MB
Memory
Power
EXT CLK
LMT01-SP
Applications
Available 4Q18
Space sensors and control
Electrical Power Subsystem (EPS)
• EPS – Battery monitors
– Temp monitors
– Current monitors
– Protection circuits – latching current limiter
Focal Plane Array
Power Distribution
Unit
Latching
current
limiter
Service
module
Latching
current
limiter
Temp
monitor
Main
regulator unit
Battery monitor:
Temp & current
Example EPS: XMM’s EPS, ESA
Spacecraft Power Systems, MR Patel
Why Monitor Die Temperature?
TMP461-SP
Temp Sensor
ADC12DJ3200QML
LMH5401
-SP
TMP112-SP
Temp Sensor
LMH5401
-SP
TMP112-SP
Temp Sensor
I
Q FM
C C
on
ne
cto
r
Clocking
LMK04832QML-SP
Power
EXT
CLK
Op
tio
na
l D
ua
l D
DC
+ N
CO
JE
SD
20
4B
ADC
ADC
TI ADC12DJ3200QML: Space Grade ADC
The chip temperature of the Xilinx Virtex-5 FPGA can
rise by 34 in less than 12 minutes while only
utilizing ~21% of its logic resources
monitor temp and balance computation load.
SRC: A Systematic Study of Heat Generators
Src: Microsemi RTG4 temperature sensing
Monitored
Device
Anode & Cathode
External acces
Integrated Thermal
Diode/Transistor
FPGA/ASIC/ADC
Device being
monitored
Readout
Circuit
Need a simple solution to monitor die temperature of
FPGA’s, ADC’s & ASIC’s
Discrete Implementation
+
–
ADC
Low drift,
Op Amp
Precision
ADC
Precision Current Source
Discrete Implementation
Bias Diode
Timing
Circuitry
mm
TI Solution: TMP461-SP – Fully integrated, single-chip solution (7 mm x 6.8 mm)
– Self-controlled, integrates timing and temp lookup
– Space qualified, flight-ready ceramic package
Low Pass Filter
Present-day Solution – 2+ IC’s, 7+ actives, 10+ passives
– Solution often bulky (cms on a side)
cm
Remote Diode Temp Sensing Solution
TMP461-SP 1.8V, High-Accuracy, Low-Power Remote Temp Sensor
Features
• Remote diode maximum variance: +/- 1.5 C (50 kRad)
• Local temp maximum variance: +/- 2 C (50 kRad)
• Eliminates offset error due to series resistance
• Programmable non-ideality factor
• Programmable digital filtering
• Resolution: Temp changes to 0.0625ºC
• Alert pin can provide over-temperature trip signal
• Vs=1.7 V to 3.6V, 35 uA operating current
• Ceramic 10-lead HKU package
Applications
Benefits
• QMLV Qualified: 5962-1721801VXC
• Ideal for multi-location, high-accuracy temperature measurements in a variety of distributed telemetry applications
• Enables measurement of remote diode temperatures in the range of –64°C to 191 °C
• Two-Wire and SMBus™ Serial Interface Compatible with Pin-Programmable Address
• Spacecraft FPGA, ADC's/DAC's, ASIC Temperature Monitoring
• Spacecraft Housekeeping and Telemetry
Radiation Performance
• SEL (76 MeV.cm2/mg at 125 C)
• Tested up to TID 50 krad HDR at 50 rad/s
• Tested up to TID 100 krad at LDR at 10 mrad/s
Released
SCL
V+
D+
D-
THERM
SDA
Alert
GND
A0
FPGA or ASIC
SMBus Controller
Host Processor
A1
Overtemperature Shutdown
Built-in Thermal
Transistor or Diode
1.7 V to 3.6 V 1.7 V to 3.6 V
TMP
46
1-S
P
INA901-SP Very Wide Common-Mode Voltage Current Sense Amplifier with Split Stage for Filtering
Features
• -16V to 80V Common-Mode Range
• Split Stages for Filtering
• Bandwidth up to 130kHz
• Gain: 20V/V
• Operating temperature -55 to 125°C
• Package size: 6.5mm x 6.5mm
• Option for KGD
Applications
Benefits
• Eliminates need for additional protective components in the event of CMR reversals
• Preserves buffered voltage output and saves using an additional op amp
• Simplifies design of current control loops
• Enables a flexible circuit design
• QMLV/RHA Qualified
• Current Monitor for current mode control DC-DC Convertor
• Current Measurement in an H-Bridge for Motor Control
• Latching Current Limiters on High common mode bus
• Current sensing on GaN modules for increased efficiency
Radiation Performance
• TID 100kRad(Si) RHA
• SEL Immune to LET 85 MeV
Development
Space power
Redundancy
TPS7H2201-SP | 1.5-7 VIN, 6 A Load Switch
Latchup
Protection
Power management and distribution
(i.e. disconnect selective loads during certain orbit periods)
TPS7H2201-SP 1.5-7 VIN, 6 A, 50 mΩ On-Resistance Load Switch with Reverse Current Protection and Current Limiting
Features
• VIN = 1.5 to 7 V, 6 A maximum current
• On Resistance (RON) of 50 mΩ max
• Reverse current protection
• Configurable rise time and fault timer
• Programmable current limitingOVP and UVLO
• Low control input threshold enables use of 1.8 - 3.3 V logic
• 9.6 x 11.0mm CFP-16 package
• Die option planned
Applications
Benefits
• Highly integrated solution eliminating the need for discrete FETs for power management
• Controlled inrush current during system power-up
• Reverse current protection for cold sparing applications
• Able to parallel for current sharing and reduced RON
• Low threshold enable compatible with multiple IO standards
• Over current system protection with programmable fault timer
• Space Satellite Power Management and Distribution
• Radiation Hardened and Tolerant Power Tree Applications
Radiation Performance
• TID = 100kRad(Si), RHA
• SEL/SEB/SEGR Immune to LET > 75MeV @ 125C
• SEFI/SET onset @ LET = 65MeV
Samples/EVMs Available
TPS7H2201-SP 1.5-7 VIN, 6 A, 50 mΩ On-Resistance Load Switch with Reverse Current Protection and Current Limiting
Space high speed signal chain
Baluns vs Amplifiers Balun Amplifiers
Size Large size (mostly ≥ 15mm2) Small size (LMH5401: 6.25mm2)
DC coupled Not suitable for DC coupled application Suitable for DC coupled applications
Frequency response Not suitable for wide bandwidth: Large insertion loss and
varies with frequency
Suitable for wide bandwidth: Minimal insertion loss and almost
constant across frequency
Power gain No power gain - Impedance matching and voltage/current gain are dependent
Supports power gain - Impedance matching and gain are independent
Buffering No buffering - Requirement on previous stage to drive filter and ADC input
load
- No reverse isolation
Buffered - Previous stage is isolated from filter and ADC input load
- Reverse isolation: Avoids ADC switching components going back to
previous stages (ex: antenna)
Distortion Worse distortion due to phase unbalance Better distortion with wideband amplifiers
Noise Less noise (dependent on insertion loss) Noise must match application requirement (LMH5401 9.6dB NF)
Temperature range Limited temp range (ex: -20 to 85C)
Large gain variation across temperature
Wide temp range (ex: -40 to 125C for LMH5401-SP)
Small gain variation across temperature
Reliability Less reliable due to mechanical construction (ex: vibration
during flight)
Reliable due to monolithic implementation
• Unprecedented usable bandwidth and application flexibility DC to 2GHz.
• Excellent linearity performance through 1GHz
• Supports DC coupled operation, with either single or split supply
operation.
• Easy single-ended in to differential out conversion without external
baluns.
• Low power (280 mW on 5V supply) makes it attractive for a variety of
wide band, high dynamic range applications where power and board
space savings are desirable.
LMH5401-SP 6+ GHz GBW Fully Differential Amplifier (FDA)
• Gain bandwidth (GBW) of ~6 GHz
• 17,500 V/us Slew Rate
• Gain >3dB (externally set)
• Low harmonic distortion (SE-DE, 200Ω, G=17dB)
• -80/-80 dBc HD2/3 @500MHz, 1Vpp
• Low intermodulation distortion (SE-DE, 200Ω, G=17dB)
• -88dBc IMD3 @500MHz, 1Vpp
• Output: 5.8Vpp on 5V supply
• Supply operation from 3.3 to 5.0 V @ 55mA
• Split supply operation supported
• Power down
• 5.5 mm x 6.0 mm Flipchip Ceramic Leadless Chip Carrier
• QMLV Qualified RHA TID 100krad
Applications
• DAC output buffer
• Gig ADC Driver
• Communications Transmitter Signal Chain
• IF / RF and baseband gain blocks
• SAW filter Buffer/ Driver
Features Benefits
LMH5401-SP Small Signal Frequency Response
Released
Summary • Space Grade High-Speed Signal-Chain
– TSW12D1620EVM-CVAL: 12-bit 3.2Gsps reference design including clocking, power, temp
sensing, housekeeping
– LMH5401-SP: >3GHz Fully differential amplifier for Balun replacement
• Space Grade Sensing and Controls
– TMP461-SP: single-chip solution for IC die and other remote diode temperature sensing
– LMT01-SP: Digital output upgrade vs existing analog options and thermistor solutions
– INA901-SP:wide (-16 to +80V) common-mode voltage current sensor with no external transistor
• Space Grade Power Switching
– TPS7H2201-SP: single-chip solution for cold sparing, power path switching and latchup current
limiting
• Find the latest at www.ti.com/space
Resources
• TI Space Rated Power Solution for Microsemi RTG4 FPGA
• TI Space Products Guide – Updated September 12, 2018
• Use of an LDO as a Load Switch in Space Applications
• Error Detection and Correction (EDAC) for SMV512K32 Rad-Hard SRAM
• TI HiRel Radiation & Reliability reports
• New TI Aerospace & Defense Portal
Questions?