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Space Products

Amplifiers and Linear

Clocks

Data Converters

DSP

Interface

Logic

Power

www.ti.com/space 2012

Space Products Guide

Overview

TI-HiRel Space Products

To support the demanding nature of space applications TI and National have combined product lines to create a strong and united offering for space applications . Customers can expect no disruption of service as a result of this merger and that TI/National products will continue to be available .

By combining our portfolios we provide a complete signal chain solution for space .

National customers can be assured:

• No Obsolescence

• No Part Number Changes

• No Requalification

• Continue National Fab Operation

• Continued new product development

Overview

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2

Featured Products

Power Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4

Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

Data Converters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

Analog Front End . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

Precision Amplifier . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11

Clocks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12

Selection Tables

Power Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15

Amplifiers and Linear . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17

Data Converteres . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

Clocks/Buffers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21

Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21

Logic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21

Digital Signal Processor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21

Resources

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Back Cover

Potential applications:

• Commercial and defense space-based systems

• Data processing

• Flight critical control systems

• Gas chromatographs

• Particle detectors

• Photometers

• Space-based imaging and surveillance

• Spectrometers

• Wave analyzers

For more information on

TI-HiRel space products, see

www.ti.com/space.

Radiation Data is available at

www.ti.com/radiation.

Space Products Guide

Radiation Effects

High-energy protons, electrons and charged particles in natural space environments can strongly affect the operation of electronic circuits used in space applications .

Radiation is energy in transit, taking the form of high-speed particles and electromagnetic waves. We encounter electromagnetic waves every day .

They make up our visible light, radio and television waves, ultraviolet (UV) light and microwaves with a large spectrum of energies . These examples of electromagnetic waves do not cause ionizations of atoms because they do not carry enough energy to separate molecules or remove electrons from atoms .

Ionizing radiation is radiation with enough energy so that during an interaction with an atom, it can remove tightly bound electrons from their orbits, causing the atom to become charged or ionized. Examples are gamma rays, protons and neutrons.

The most common radiation requirement in the aerospace design community is total ionizing dose

2

(TID), also known as total dose. Total dose irradiation is primarily caused by electrons and protons that penetrate into the silicon and can result in device degradation and/or device failure .

Charge buildup affects the currentvoltage characteristics of transistors used in semiconductor circuits .

Proper operation of a transistor relies on the ability to switch it from a lowconductance (off) state to a highconductance (on) state as the gate voltage passes through a threshold .

Extended exposure to radiation can shift the threshold voltages making the transistors easier or harder to switch. Radiation may also increase the leakage current, causing the on and off states of the transistors to become less distinguishable . Either effect can ultimately cause circuit failure .

HiRel performs total dose testing on all space-qualified, QML Class V new product releases in order to determine how much radiation our devices can absorb before device degradation occurs . The test results for each device are available on request.

Texas Instruments 2012

Space Products Guide

Overview

Single-event effects

Although TID is typically the first step in determining the radiation tolerance of a device to be used in the space industry, single event effects, or SEE, rank as the next concern for space system designers . The first “must have” is that the device must be free of single event latch-up (SEL). SEL can lead to severe disruption or even catastrophic device failure in the system. Once a devices latches, it can sometimes be recovered by powering down the system and/or performing a system reset. If left unchecked, the increased supply current demand can lead to device burnout. One approach to making a device SEL free, is to use a semiconductor process that is inherently SEL free . TI’s complementary bipolar (BiCOM) processes are manufactured using “silicon over insulator,” deep-trench isolated wafer construction techniques that result in devices that are inherently immune to latch-up .

Once a device has been checked to be SEL free, the device will need to be rated as to it’s single event upset or

“SEU” tolerance. As charged particles pass through the silicon, they deposit enough energy to cause logical errors to occur in digital devices .  This so called bit flipping, i.e. a “1” to “0” state, or “0” to “1” state, can propagate into multiple bit errors, or “MBU’s” and the logic error propagates through the system. Often a system may hangup from these unexpected logic state changes, and may require a device reset, or restart. Unlike the SEL, SEU’s can often be tolerated to some extent, and are classified as errors in time .

The actual SEU rate, or so called

Soft Error Rate (SER) is determined by device exposure to heavy ion’s at various energy levels ( LET ) over time, and determining the number of errors that occur . This data can be used to generate a Weibull distribution of the error rate .

Radiation test services

TI offers additional radiation test characterization services to accommodate specific program requirements.

• ELDRS and SEE testing

• Prompt dose characterization

Enhanced low-dose-rate sensitivity

(ELDRS) has become an issue in radiation-tolerant applications . To help mitigate this effect, TI improved the ELDRS radiation performance on several bipolar devices indicated in the tables below . Testing was performed at a dose rate of 10mRad/Sec.

Radiation test method

To assure reliable performance under the aforementioned environmental conditions, the HiRel space product line is thoroughly tested for radiation performance as part of the qualification process . The flow diagram shown here illustrates the HiRel radiation test procedure .

H.S. Op-

Amp

H.S. Op-

Amp

Power

FET

High Speed

DAC

High Speed

ADC

Precision

Op-Amp

Point of

Load

Power

FPGA

SRAM

MUX

The devices are electrically tested before irradiation, with parametrics recorded and datalogged for later comparison . Devices are electrically biased in specialized fixtures within the radiation chamber and exposed to a predetermined radiation level . They are then electrically tested after irradiation to determine if degradation or device failure has occurred . If no measurable degradation has occurred, the devices are irradiated again at a higher dose level and tested once more . This process repeats until the devices fail or reach the maximum predetermined radiation level .

Radiation test method

No

Clocking

DSP

Low Speed

ADC

Space

Logic

Start

Record Data

Record Data

Device Failure

End

Yes

SERDES

Motor

Controller

Switch

Repeater

Driver

Power

FETs or

BITs

TI space solutions

TI has radiation-tolerant, hermetically packaged devices released for each one of the blocks shown in the block diagram .

Space Products Guide

3

Texas Instruments 2012

Featured Products

Power Management

Point-Of-Load Regulator

TPS50601-SP

For more information, visit:

www.ti.com/sc/device/

TPS50601-SP

Key Features:

• Radiation performance

TID = 100 krad (Si)

ELDRS free

Single event latchup (SEL) immune at LET ≤ 85MeV-cm2/mg

Single event transient (SET) immune at LET ≤ 85MeV-cm2/mg

• Single-supply operation above

3 V V

IN

, PV

IN

Split power-rail 1.6 V to 6.3 V PV

IN

• Min output voltage to 0.8 V

• Integrated high-side and low-side power MOSFETs

• 6 A output current

• Synchronous operation

• Flexible switching frequency options:

100-kHz to 1-MHz adjustable

• internal oscillator

External sync capability from

100 kHz to 1 MHz

Sync pin can be configured as a

500 kHz output for master/slave applications

• Supported by TI’s SwitcherPro™ design software tool

• Parallel operation 180° out of

Φ with sync pin

• Sync pin feature supports parallel operation mode – ideal for driving power rails with up to 12 A requirements

• Adjustable switching frequency

Allows designers to select desired

• external capacitorand inductor component sizes

Eliminates “spurious noise” in the operating bandwidth of interest

• Dynamic bias feature – improves load transient response with smaller output capacitances

• 20-pin HKH ceramic dual flat-pack package – saves valuable PCB space

R

RT

PVIN

VIN

TPS50601

BOOT

PWRGD

SYNC

VSENSE

SS/TR

RT

COMP GND

Thermal

Pad

70.00

0

1 2 3

Load (A)

Very efficient DC-DC conversion at 93% at 1 amp.*

* Inductance = 4.7 µH

Switching frequency = 100 kHz

In Qualification

The TPS50601 is a 1.6 V–6.3 V Input, 6 A synchronous point-of-load stepdown SWIFT

DC-DC converter that has been designed and qualified for harsh environments such as down hole drilling, geological exploration and space.

Css

Simplified schematic.

100.00

95.00

90.00

85.00

80.00

75.00

VIN

Cin

C2

SIMPLIFIED SCHEMATIC

R3

C1

EN

PH

Cboot

4

Lo

Co

5

VOUT

R1

R2

6

Space Products Guide

4

Texas Instruments 2012

Featured Products

Power Management

Precision Micropower Shunt Voltage Reference

LM4050QML

For more information, visit:

www.ti.com/sc/device/ LM4050QML

Key Features

• Radiation performance

Low dose rate qualified to 100 krad (Si)

Single-event latchup-free up to

120 MeV-cm

2

/mg

• Fixed reverse breakdown voltages of

2.5 V, 3.3 V, and 5.0 V

• Voltage tolerance ± 0.1%

• Tempco 17 ppm/˚C

• 60 µA to 15 mA operating current range

• SET free with 60 µF capacitor

• Low dose rate qualified to 100 krad (Si)

• Single-event latchup-free up to 120

MeV-cm

2

/mg

• QML-V RHA qualified, SMD 5962R09235

Applications

• For use in space-critical applications, such as satellite control systems and instrumentation

• Power supply for micropower data converters

LM4050QML

Typical application circuit.

R

S

V

R

V

S

Memory

I

Q

+ I

L

I

L

I

Q

16-Mbit Asynchronous SRAM

SMV512K32-SP

For more information, visit:

www.ti.com/sc/device/ SMV512K32-SP

Key Features

• Radiation performance

TID = >300 krad (Si)

SER < 5e-17 upsets/bit-day

Proton upset saturation cross section < 3e-16cm

2

/bit

Latch up immunity > LET = 110

MeV-cm

2

/mg (T=398°K)

• Functionally compatible with commercial 512K x 32 asynchronous

16 Mb SRAMs

• 20ns read, 13.8ns write-through maximum access time

• Built-in error detection and correction (EDAC)

• Built-in scrub engine for autonomous correction (scrub frequency and delay is user defined)

• Three state bidirectional data bus

• QML-V qualified, SMD

5962-1123701VXC

The SMV512K32 is a high performance asynchronous CMOS SRAM organized as 524,288 words by 32-bits. It is pin selectable between two modes: master or slave . The master device selection provides user defined autonomous EDAC scrubbing options . The slave device selection employs a scrub on demand feature that can be initiated by a master device .

WZ

E1Z

E2

GZ

DQ(31:0)

Read/Write

Circuit

SMV512K32-SP block diagram.

A7

A8

A9

A10

A11

A12

A13

A14

A15

A16

EDAC

Memory Array

512K x 32

I/O Circuit

Column Decoder

A0 A1 A2 A3 A4 A5 A6 A17 A18

MBE

SCRUBZ

BUSYZ

Space Products Guide

5

Texas Instruments 2012

Featured Products

DSP

32/64-Bit, Floating-Point Digital Signal Processor

SMV320C6727B-SP

For more information, visit:

www.ti.com/sc/device/ SMV320C6727B-SP

Key Features

• Radiation performance

TID = 100krad(Si)

SEL immune to LET = 85

MeV-cm

2

/mg

• New C67x+

DSP core

• 250 MHz; 1500 MFLOPS

• Memory

256 KB of SRAM and 32 KB of I-cache

DSP/BIOS

/DSPLIB/FastRTS library included in the device

• Peripherals

32-bit HPI for connecting to hosts dMAX support for 1D, 2D, 3D transfers as well as multi-tap memory delay

Three McASPs

Two I

2

C, two SPIs, 133 MHz/32-bit

EMIF

• Temperature range: -55°C to +125°C

• Available in 256-pin ceramic QFP pkg

The SM320C6727B is the next generation of Texas Instruments’ C67x generation of high-performance 32-/64-bit floating-point digital signal processor .

The C67x+ CPU is an enhanced version of the C67x CPU used on the C671x

DSPs. It is compatible with the C67x CPU but offers significant improvements in speed, code density, and floating-point performance per clock cycle. At 300 MHz, the CPU is capable of a maximum performance of 2400 MIPS/1800 MFLOPS by executing up to eight instructions (six of which are floating-point instructions) in parallel each cycle. The CPU natively supports 32-bit fixed-point, 32-bit singleprecision floating-point, and 64-bit double-precision floating-point arithmetic.

256

SRAM

384K

ROM

32-Bit

HPI

Instruction

32 KBytes

C67x+™

Core

Memory Controller

Switch

Config

DMA

SPI 0

I 2 C 0

I

2

C 1

McASP 0

McASP 1

McASP 2

SPI 1

Applications

• Satellite

• Radar and guidance systems

• Defense electronics

MAX MAX

Control dMAX

RTI Timer

SMV320C6727B block diagram.

Space Products Guide

6

Texas Instruments 2012

Featured Products

Data Converters

Analog-to-Digital Converter

ADS5463-SP

For more information, visit:

www.ti.com/sc/device/ ADS5463-SP

Key Features

• Radiation performance

TID = 150 krad (Si)

• SNR > 64.5 dBFS at 450 MHz and 500 MSPS

• 2.2-VPP differential input voltage

• 2.2-W total power dissipation

• On-chip analog buffer, track and hold and reference circuit

• 84-pin ceramic ceramic quad

Flatpack package (HFG)

• QML-V RHA qualified, SMD

5962R07247

• Military temperature range

–55°C to 125°C

Applications

• Orbital communication

• Orbital control systems

• Spacecraft communications

The ADS5463-SP is a 12-bit, 500-MSPS analog-to-digital converter (ADC) that operates from both a 5-V supply and 3.3-V supply, providing LVDS-compatible digital outputs from the 3.3-V supply. The input buffer isolates the internal switching of the onboard track and hold from disturbing the signal source while providing a high-impedance input .

A

IN

A

IN

V

REF

CLK

CLK

A1

Reference

TH1

Timing

TH2

ADC1

+

5

DAC1

OVR OVR DRY DRY

ADS5643-SP functional block diagram.

A2 TH3

ADC2

Digital Error Correction

D[12:0]

+

5

AV

DD

DV

DD

DAC2

A3

GND

ADC3

5

12-bit 3.2 GSPS ADC

ADC12D1600QML

For more information, visit:

www.ti.com/sc/device/ ADC12D1600QML

Key Features

• Radiation performance

SEL and SEFI immune >

120MeV-cm2/mg

TID 100 krad (Si)

• Full power bandwidth of 2.8 GHz

• 9.2/9.4 ENOB TBD

• 58.2/58.8 Bc+ SNR TBD

• 66.7/71.9dBc+ SFDR TBD

• 1.71 W per channel at 1GSPS from single 1.9-V supply

• Low-noise deMUX’d LVDS outputs

• Guaranteed no missing codes

• Space qualified

• Temperature range: -55°C to +125°C

Applications

• Satellite communication system

• Wideband communications

Space Products Guide

• Data acquisition systems

• RADAR/LIDAR

• Software defined radio

V

IN

I+

V

IN

I–

R term

MUX

V

IN

Q+

R term

V

IN

Q–

R term

CLK+

CLK–

T/H

T/H

Clock

Management

12-bit

ADC

12

LVDS

Outputs

12

12

1:2

DeMUX

12 12

12-bit

ADC

12

12 1:2

DeMUX

12

12

DId(11:0)

DCLKI

ORI

ORQ

DCLKQ

DQd(11:0)

12

DI(11:0)

DQ(11:0)

Control/status and other logic

ADC12D1600QML functional block diagram.

7

Control pins

SPI

Texas Instruments 2012

Featured Products

Data Converters (continued)

High-Performance, Low-Power, Dual Channel, 10-Bit 1 GSPS or Single 10-Bit 2 GSPS ADC

ADC10D1000QML

For more information, visit:

www.ti.com/sc/device/ ADC10D1000QML

Key Features

• Radiation performance

TID of 100 krad (Si)

Single-event latchup-free up to

120 MeV-cm

2

/mg

• Full power bandwidth of 2.8 GHz

• 9 ENOB with F

IN

248 MHz Fs and

1 GHz sample rate

• Single 1.9V power supply

• Lowest power in the industry at 1.45 W per channel at 1 GSPS

• Low noise 1:2 demuxed LVDS outputs

• Guaranteed no missing codes

Applications

• For use in satellite wideband software-defined radios for communications, radar, and LIDAR

ADC10D1000QML Power Consumption

4.0

3.5

3.0

2.5

5.0

4.5

Competitor A

2.0

1.5

1.1

200 400 600 800 1000 1200 1400 1600 1800 2000 2200

Sample Rate (MSPS)

14-Bit, 155 MSPS A/D Converter

ADC14155QML

For more information, visit:

www.ti.com/sc/device/ ADC14155QML

Key Features

• Radiation performance

TID of 100 krad (Si)

Single-event latchup-free up to

120 MeV-cm

2

/mg

• Input bandwidth of 1.1-GHz for high

IF sampling

• SFDR of 80.3 dBFS

• Power consumption of 967 mW at

155 MSPS

• Guaranteed no missing codes

• Dual 1.8-V and 3.3-V operation

LNA

Narrowband Satellite Receiver

PLL

BPF

BPF

BPF

Amp

Amp

Amp

ADC14155

ADC14155

FPGA

/ASIC

ADC14155

Applications

• For use in satellite narrowband receivers

BPF

Amp ADC14155

Rx – RF Module

Space Products Guide

8

Texas Instruments 2012

Featured Products

Data Converters (continued)

8-Channel, 50 kSPS to 1 MSPS, 12-Bit A/D Converter

ADC128S102QML

For more information, visit:

www.ti.com/sc/device/ ADC128S102QML

Key Features

• Radiation performance

TID of 100 krad (Si)

Single-event latchup-free up to

120 MeV-cm

2

/mg

• Only 2.3 mW of power

• SPI serialized outputs

• 8 input channels

• DNL -0.3 to 0.5 LSB typical

• INL ± 0.6 LSB typical

• QML-V RHA qualified, SMD

5962R0722701VZA

12V

2.2k

V

Z

LM4050-5.0QML

Applications

• Ideal for precision measurements in telemetry and control systems

Typical application diagram.

IN0

IN1

IN2

IN3

IN4

IN5

IN6

IN7

VA VD

ADC128S102QML

SCLK

CS

DIN

DOUT

12-Bit Micropower Rail-to-Rail Output D/A Converter

DAC121S101QML

For more information, visit:

www.ti.com/sc/device/ DAC121S101QML

Key Features

• Radiation performance

TID of 100 krad (Si)

Single-event latchup-free up to

120 MeV-cm

2

/mg

• Only 0.64-mW of power

• 3-wire, 20-MHz SPI digital interface

• Supply range 2.7 V to 5.5 V

• DNL -0.1 to 0.21 LSB

• Setting time 12 µS

• QML-V RHA qualified, SMD

5962R0722601VZA

Applications

• For use in programmable precision biasing in telemetry and control systems

+12V

20 kΩ

V

Z

LM4050-5.0QML

Functional block diagram.

DAC121S101QML

SYNC

DIN

SCLK

V

OUT

= 0V to 5V

Space Products Guide

9

Texas Instruments 2012

Featured Products

Analog Front End

Dual-Channel, 14-Bit, 40 MSPS Analog Front End with LVDS Outputs

LM98640QML

For more information, visit:

www.ti.com/sc/device/ LM98640QML

Key Features

• Radiation tolerant up to a total ionizing dose of 100 krad (Si)

• Single-event latchup and SEFI-free up to 120 MeV-cm

2

/mg

• Space-qualified, fully-integrated, high-performance, 14-bit, 5 to 40

MSPS image-processing solution

• Low power 125 mW/channel

• Serialized LVDS outputs and LVDS input clock

• CDS or S/H processing with selectable 0 dB or 6 dB Gain for CCD or

CMOS sensors

• Independent programmable gain and offset correction for each channel

• Programmable input clamp voltage

• Programmable sampling edge up to

1/64th pixel period

Applications

• Ideal for use in image processing applications for earth observation, space imaging, and star trackers

Image Sensor

CDS

S/H

Focal Plane Electronics Board

+

CDAC

FDAC

PGA

LM98640QML

SPI

14 bit

ADC

CDS

S/H

+

PGA

FDAC

CDAC

Timing Control

Image sensor functional block diagram.

14 bit

ADC

Digital Processing

Board

FPGA

Image

Processing

FPGA

Timing

Control

Precision Amplifier

Dual Channel, High-Precision, Rail-to-Rail Output Operational

LMP2012QML

For more information, visit:

www.ti.com/sc/device/ LMP2012QML

Key Features

• TID of 50 krad (Si)

• ELDRS qualified to 50 krad (Si)

• Low SET cross section

• Low supply current of 920 µA

• Very low TCVos of 0.015 µV/ºC

• Low input offset voltage of 60 µV over time and temperature

• No 1/f noise

• 3-MHz wide gain bandwidth

• 10 ld hermetic gull wing ceramic cerpack packaging

• QML-V RHA qualified, SMD

5962L0620601VZA

Applications

• Ideal for use in precision measurements in telemetry and control systems, as well as sensing solutions

Space Products Guide

Voltage Offset vs Temperature

5.0

4.5

4.0

3.5

TCVOS = 0.015 µV/°C

3.0

2.5

2.0

-55 -35 -15 5 25 45 65 85 105 125

Temperature (C)

10

Texas Instruments 2012

Featured Products

Interface

SerDes Interface Transceiver

TLK2711-SP

For more information, visit:

www.ti.com/sc/device/ TLK2711-SP

Key Features

The TLK2711-SP is a member of the WizardLink transceiver family of multi-gigabit

• Radiation performance

TID = 25 krad (Si)

• Hot-plug protection

• High-performance 68-pin ceramic quad flat pack package (HFG)

• Low-power operation transceivers, intended for use in ultra-high-speed, bidirectional, point-to-point data transmission systems . The TLK2711-SP supports an effective serial interface speed of 1.6 Gbps to 2.5 Gbps, providing up to 2 Gbps of data bandwidth.

The primary application of this transceiver is to provide very high-speed I/O data channels for point-to-point baseband data transmission over controlled impedance media of approximately 50Ω .

• Interfaces to PCBs, copper cables or fiber-optic cable

• On-chip PLL provides clock synthesis from low-speed reference

LOOPEN

PRBSEN PRBSEN

• Receiver differential input thresholds

200-mV minimum

• Low power: < 500 mW

• Ideal for high-speed backplane interconnect and point-to-point data link

• QML-V qualified, SMD

5962-0522101VXC

TXD0−TXD15

9

8b/10b Encode

10

MUX

10

10

2:1

MUX

10

BIAS

PRE

TKLSB

TKMSB

9 10

TXP

TXN

Applications

• Flight critical control systems

• Launch vehicles

• Satellite communications

• Space-based imaging and surveillance

TXCLK

TESTEN

ENABLE

PRBSEN

Interpolator and

Clock Recovery

2:1

MUX

Clock

RKLSB

2:1

MUX

PRBSEN

RXCLK

Recovered

Clock

RXD0−RXD15

RKMSB

9

9

Comma

Detect and 8b/10b

Decoding

Comma

Detect and 8b/10b

Decoding

10

10

1:2

MUX

10

2:1

MUX

Data

RXP

RXN

TLK2711-SP functional block diagram.

Space Products Guide

11

Texas Instruments 2012

Featured Products

Clocks

Clock Synchronizer/Jitter Cleaner

CDCM7005-SP

For more information, visit:

www.ti.com/sc/device/ CDCM7005-SP

Key Features

• Radiation performance

TID = 50 krad (Si)

• Two reference clock inputs (primary and secondary clock) for redundancy support with manual or automatic selection

• Accepts LVCMOS input frequencies up to 200 MHz

• VCXO IN operating frequencies up to

2.2 GHz (LVPECL)

• Up to five differential LVPECL outputs or up to 10 LVCMOS outputs

• Frequency is individually selectable on each output

• SPI-controllable device setting

• 3.3-V power supply

• High-performance 52-pin ceramic quad flat pack (HFG)

• QML-V qualified, SMD

5962-0723001VXC

Applications

• High-speed data acquisition and generation

• MRI: magnetic resonance imaging

• Orbital data aquisition

• Satellite communications

• Software defined radio (SDR)

• Space-based imaging & surveillance

• Spacecraft wireless infrastructure

• Ultrasound system

• X-ray: baggage scanner

• X-ray: medical

The CDCM7005-SP high-performance, low-phase noise and low-skew clock synchronizer synchronizes a voltage-controlled crystal oscillator (VCXO) or voltage-controlled oscillator (VCO) frequency to one of two reference clocks.

The CDCM7005-SP can lock to one of two reference clock inputs and supports frequency hold-over mode and fast frequency locking for fail-safe and increased system redundancy .

REF_SEL

PRI_REF

SEC_REF

CTRL_LE

CTRL_DATA

CTRL_CLK

PD

RESET or

HOLD

VCXO_IN

VCXO_IN

VBB

Automatic

LVCMOS

PECL

INPUT

/8

P16-Div

P Divider

Reference

Clock

V

CC

– 1.3V

VC AVCC

PECL to

LVCMOS

FB_MUX

M

N

VCC_CP

10

N 2

12

LOCK

PFD

HOLD

Charge

Pump

Current

Reference

LV

CMOS

LV

PECL

LV

CMOS

LV

CMOS

LV

PECL

LV

CMOS

LV

CMOS

LV

PECL

LV

CMOS

LV

CMOS

LV

PECL

LV

CMOS

LV

CMOS

LV

PECL

LV

CMOS

STATUS_REF/

PRI_SEC_CLK

STATUS_VCXO/

I_REF_CP

PLL_LOCK

CP_OUT

Y0A

Y0B

Y1A

Y1B

Y2A

Y2B

Y3A

Y3B

Y4A

Y4B

GND

CDCM7005-SP functional block diagram.

Space Products Guide

12

Texas Instruments 2012

ELDRS-Free Bipolar Analog Products

Enhanced Low Dose Rate Sensitivity

It has been shown that for many types of integrated circuits, the response to total ionizing dose (TID) radiation is dependent on the dose rate . Many bipolar products have been shown to exhibit enhanced low dose rate sensitivity (ELDRS), where they may pass TID testing at high dose rates, but fail at lower dose rates . TI’s bipolar process technology delivers superior radiation performance and no ELDRS.

Every wafer is tested and qualified at high and low dose rates

• Per Mil-Std-883 method 1019 condition D

• Low dose rate of 10 mrad/s

(36 rad/hr)

• Biased and unbiased

2

1.5

ELDRS-Free LM139A

0.5

0

-0.5

-1

-1.5

-2

Low Dose Rate Biased

Low Dose Rate Unbiased

High Dose Rate Biased

High Dose Rate UnBiased

0 20 40 60 80 100 120

Exposure (krad[Si])

SMD Ordering for ELDRS-Free Products

Example LM124A SMD Ordering Number

See page 20 for ELDRS free qualified products listing

Ordering info:

5 9 6 2 R 9 9 5 0 4 0 2 V x A

Level of radiation exposure Low dose rate qualified

Space-Qualified Die Products

Die Products

A wide range of die products are available to support our customers needs for radiation tolerant applications .

If a product is available as a Space,

Radiation Tolerant, or ELDRS level package part, in most cases an equivalent die is also available. Visit [email protected] .ti .com for a current list of available die and wafer products .

Die Products Value Advantage

The implementation rate of die products is rapidly increasing due to form factor needs and system performance improvement requirements. Factors influencing the migration from packaged semiconductor die to wire bond die include:

• Improved integration

• Smaller size and weight

• Reliability

• Improved electrical performance

Space Products Guide

13

Texas Instruments 2012

Selection Tables

Power Management

DC/DC Converter

Device Orderable Description

Radiation

Tolerance

100 krad (TID)

85MeV (SEL/SEU)

Iout (A)

6

TPS50601-SP

TPS50601MHKHV Adj Frequency, Monolithic 6A

PWM Controllers

Device   Orderable

UC1525B-SP 5962-8951105V2A

UC1825A-SP 5962-8768105VEA

Description 

UC1825-SP 5962-8768104VEA/V2A High-speed PWM controller

Regulating pulse-width modulator

High-speed PWM controller

UC1843-SP 5962-8670410VPA/V9A Current-mode PWM controller

UC1843A-SP 5962-8670409VPA Current-mode PWM controller

UC1846-SP 5962-8680603VEA/V2A Current-mode PWM controller

UC1875-SP 5962-9455502VKA Phase-shift resonant controller

UCC1805-SP 5962-9451305VPA Low-power BiCMOS current-mode PWM

UCC1806-SP 5962-9457501VEA/V2A Low-power, dual-output, current-mode PWM controller

UC1823A-SP 5962-8990502VEA/V2A High-speed PWM controller

UC1842-SP 5962-8670401VPA/VXA Current-mode PWM controller

UC1842A-SP 5962-8670405VPA/VXA Current-mode PWM controller

UC1844-SP 5962-8670403VPA/VXA Current-mode PWM controller

UC1844A-SP 5962-8670407VPA/VXA Current-mode PWM controller

UC1845-SP 5962-8670404VPA/VXA Current-mode PWM controller

UC1845A-SP 5962-8670408VPA/VXA Current-mode PWM controller

UC1863-SP 5962-9203103VEA/V2A Resonant-mode power-supply controller

Radiation

Tolerace

40 krad

(ELDRS)

40 krad

(ELDRS)

40 krad

(ELDRS)

40 krad

(ELDRS)

40 krad

(ELDRS)

40 krad

(ELDRS)

50 krad

(ELDRS)

V

IN

(V)

1.6 to

6.3

Min Vout

(V)

0.8

3.6

6.75

8.4

10

10

10

10

7.6

7.6

7

V

IN

(min)

(V)  

8.4

V

IN

(max)

(V) 

22

8

8.4

35

30

7.6

7.6

7

9.25

30

30

40

20

12

15

22

30

30

30

30

30

30

22

Max Duty

Cycle (%)

85

Duty Cycle

(Max)(%)

50

50

50

100

100

50

100

50

50

100

100

100

50

50

50

50

50

Switching

Frequency (kHz)

100 to 1000

Power Drivers

Device   Orderable

UC1707-SP 5962-8761903VEA

Description 

Complementary high-speed power driver

Radiation

Tolerace

50 krad

(ELDRS)

V

IN

(min)

(V)  

1.5

V

IN

(max)

(V) 

5

UC1705-SP 5962-9579801VPA Complementary high-speed power driver w/ internal regulator

UC1708-SP 5962-0051401VEA/V2A Non-inverting high-speed power driver

UC1709-SP 5962-0151201VPA Inverting high-speed MOSFET driver

UC1710-SP 5962-0152001VPA Complementary high-current MOSFET driver

1.5

3

1.5

6

5

5

5

4.7

Feedback Signal Generator

Device   Orderable Description    

UC1901-SP 5962-8944101VCA Isolated feedback generator

Radiation

Tolerace

Operating Supply

Current (mA)  

5

V

IN

(min)

(V)  

4.5

V

IN

(max)

(V) 

40

Duty Cycle

(Max)(%)

40

40

35

40

18

Reference

Voltage (V)

1.5

PWM Outputs

(#)

2

1

2

2

1

Tolerance (%)

1

PWM Outputs

(#)

2

2

2

1

1

2

4

1

2

1

1

1

1

1

1

1

2

Packages

20p HKH (CFP)

In Qualification

Packages 

16-CDIP

8-CDIP

16-CDIP, 20-LCCC

8-CDIP

8-CDIP

Package

14-CDIP

Packages 

16-CDIP, 20-LCCC

20-LCCC

16-CDIP

8-CDIP, KGD

8-CDIP

16-CDIP, 20-LCCC

20 CFP

8-CDIP

16-CDIP, 20-LCCC

16-CDIP, 20-LCCC

8-CDIP, 20-LCCC

8-CDIP, 20-LCCC

8-CDIP, 20-LCCC

8-CDIP, 20-LCCC

8-CDIP, 20-LCCC

8-CDIP, 20-LCCC

16-CDIP, 20-LCCC

LDO Controllers

Device Orderable Description

UC1832-SP 5962-9326501VCA/V2A Precision low-dropout linear controller

UC1834-SP 5962-8774201VEA/V2A High-efficiency linear regulator

Radiation

Tolerace

Idrive (Max)

(mA)

100

200

V

O

(min) (V)

2

1.5

V

IN

(max) (V)

40

40

Packages

14-CDIP, 20-LCCC

16-CDIP, 20-LCCC

Analog Controller

Device Orderable Description

UC19432-SP 5962-0923301VPA Precision analog controller

Radiation

Tolerace

40 krad (ELDRS)

Supply Voltage

(Max)

24V

Transconductance

Amp BW (MHz)

1.5

Vref min

(V)

1.295

Vref Max

(V)

1.305

Package

8-CDIP

Space Products Guide

14

Texas Instruments 2012

Selection Tables

Power Management (continued)

Motor Driver

Device Orderable Description

UC1637-SP 5962-8995701VSA Switched-mode controller for DC motor drive

Radiation

Tolerance

40 krad

Voltage Supply

Min (V)

5

Voltage

Supply

Max (V)

35

Operating

Supply

Current

(mA)

8.5

Peak Output

Current

(A)

0.4

Package

20-CFP

Voltage References

Device

LM4050QML

LM4050QML

Orderable

Coming Soon

Description

LM4050QML

5962R0923561VZA Precision micropower shunt voltage reference

5962R0923562VZA Precision micropower shunt voltage reference

Precision micropower shunt voltage reference

Radiation

Tolerance

100 krad, low-dose rate qualified

100 krad, low-dose rate qualified

100 krad, low-dose rate qualified

Initial

Accuracy (%)

0.1

0.1

0.1

Reference

Voltage (V)

2.5

5.0

3.3

Output

Current (mA)

15

15

15

Operating

Current

60 µA

60 µA

60 µA

Tempco

Max (ppm)

17

50

20

Packaging

10-CSOIC

10-CSOIC

10-CSOIC

LM113-1QML 5962-9684302VxA

LM136-2.5QML 5962R0050101VXA

LM136-2.5QML 5962R0050102VXA

Precision reference

2.5V reference diode

2.5V reference diode

100 krad

100 krad,

ELDRS-free

2.0

2.5

2.5

1.22

2.5

2.5

20

10

10

0.5 mA

1 mA

1 mA

100

20

20

TO-46,

10-CSOIC

TO46-3

TO46-3

LM185-1.2QML 5962-8759401VxA Micropower voltage reference diode

LM185-2.5QML 5962-8759406VxA Micropower voltage reference diode

TL1431-SP 5962-9962001VPA

5962-8759402VYA

Precision-adjustable

(programmable) shunt reference

30 krad

1.0

1.5

0.4

1.235

2.5

2.5

20

20

20

0.01 mA

0.02 mA

1 mA

150

150

TO46-2,

10-CSOIC

TO46-2

8-CDIP

x – Indicates multiple package options available

In Qualification.

New products are listed in bold red.

Voltage Regulators

Device

LM723

Orderable Description

JM38510/10201SxA Voltage regulator

Radiation Tolerance

N/A

LM117HQML 5962R9951703VXA 3-terminal adjustable regulator

LM117HQML 5962R9951705VXA 3-terminal adjustable regulator

LM117HQML 5962R9951706VZA 3-terminal adjustable regulator

LM117HQML 5962R9951707VZA 3-terminal adjustable regulator

Note: All parts have adjustable output x – Indicates multiple package options available

100 krad

100 krad, ELDRS-free

100 krad

100 krad, ELDRS-free

Output

Current

(mA)

150

Output

Min (V)

2.0

Input Min

(V)

9.5

Input Max

(V)

40

Quiescent

Current (mA)

500

500

500

500

1.2

1.2

1.2

1.2

4.2

4.2

4.2

4.2

40

40

40

40

5.0

5.0

5.0

5.0

Packaging

14-CDIP,

TO-100-10

TO39 -3

TO39 -3

16-CSOIC

16-CSOIC

Space Products Guide

15

Texas Instruments 2012

Selection Tables

Voltage Regulators (continued)

Device

LM117H-

VHQML

LM117H-

VHQML

LM117H-

VHQML

LM117H-

VHQML

Orderable Description

5962R0722901VXA 3-terminal adjustable regulator

5962R0722961VXA 3-terminal adjustable regulator

5962R0722902VZA 3-terminal adjustable regulator

5962R0722962VZA 3-terminal adjustable regulator

LM117KQML 5962R9951704VYA 3-terminal adjustable regulator

LM137QML 5962P9951701VXA 3-terminal adjustable regulator

LM140 JM38510/10706SYA Serial 3-terminal positive regulator

Radiation Tolerance

100 krad

100 krad, low-dose rate qualified

100 krad

100 krad, low-dose rate qualified

100 krad

30 krad

N/A

Output

Current

(mA)

1500

Output

Min (V)

1.2

Input Min

(V)

4.2

Input Max

(V)

40

Quiescent

Current (mA)

5.0

1500

1500

1500

1.2

1.2

1.2

4.2

4.2

4.2

40

40

40

5.0

5.0

5.0

1500

1500

1000

1.2

-37

5.0

4.2

–40

7.2

40

–4.2

35

5.0

7.0

Low Dropout Voltage Regulators (LDO)

Device Orderable Description

LM2941QML 5962-9166703VYA 1A low dropout adjustable regulator

Radiation Tolerance

N/A

LM2941QML 5962R9166704VYA 1A low dropout adjustable regulator

100 krad, ELDRS-free

LM2940QML 5962R8958704VXA 1A low dropout regulator 100 krad, ELDRS-free

LP2953QML 5962-9233602VXA Adjustable micropower low dropout regulator

N/A

Note: All parts have adjustable output x – Indicates multiple package options available

Output

Current

(mA)

1000

Output

Min (V)

5.0

Input Min

(V)

–15

Input Max

(V)

26

Quiescent

Current (mA)

45

1000

1000

250

5.0

5.0

1.23

–15

–20

26

26

30

45

10

0.13

Packaging

TO39 -3

TO39 -3

16-CSOIC

16-CSOIC

TO-3

TO39-3

TO3-2

Packaging

16-CSOIC

16-CSOIC

16-CSOIC

16-CSOIC

Amplifiers and Linear

Comparators

Device Orderable Description

LM111QML 5962L0052401VxA Voltage comparator

LM111QML 5962R0052402VxA Voltage comparator

LM119QML 5962R9679801VxA High-speed, dual comparator

LM119QML 5962R9679802VxA High-speed, dual comparator

LM119QML 5962-9679801VxA High-speed, dual comparator

LM139QML 5962R9673801VxA Low-power, low-offset voltage quad comparator

LM139QML 5962R9673802VxA Low-power, low-offset voltage quad comparator

LM139QML 5962-9673801VxA Low-power, low-offset voltage quad comparator

LM193QML 5962R9452602VxA Low-power, low-offset voltage quad comparator

LM193QML 5962R9452603VxA Low-power, low-offset voltage quad comparator

LM193QML 5962-9452602VPA Low-power, low-offset voltage quad comparator

LM139-SP 5962-9673802VxA Quad differential comparator

Radiation

Tolerance

50 krad

100 krad,

ELDRS-free

100 krad

100 krad,

ELDRS-free

100 krad

100 krad

100 krad,

ELDRS-free

100 krad

100 krad

ELDRS-free

50 krad

(ELDRS)

x – Indicates multiple package options available. SP is TI, QML is National.

Response

Time (µs) Chs

0.2, 0.1 1

Supply Voltage Range

(V)

5.0 to 36

0.2, 0.1 1

0.05, 0.08 2

0.05, 0.08 2

5.0 to 36

5.0 to 36

5.0 to 36

Offset

Voltage

(mV)

3.0

Output

Current

(mA)

50

3.0

4.0

4.0

50

25

25

0.05, 0.08 2

0.5

4

0.5

0.5

0.4

2

4

4

0.4

0.4

0.5

2

2

4

5.0 to 36

2.0 to 36

2.0 to 36

2.0 to 36

2.0 to 36

3.0 to 36

3.0 to 36

2.0 to 36

4.0

2.0

2.0

2.0

2.0

2.0

2.0

4.0

16

16

20

25

16

16

16

16

Packaging

CERDIP-8, 10-CFP, 10-CSOIC,

TO99-8

CERDIP-8, 10-CFP, 10-CSOIC,

TO99-8

CERDIP-14, 10-CFP, 10-CSOIC,

TO100-10

CERDIP-14, 10-CFP, 10-CSOIC,

TO100-10

CERDIP-14, 10-CFP, TO100-10

CERDIP-14, 14-CFP, 14-CSOIC

CERDIP-14, 14-CFP, 14-CSOIC

14-CFP, 14-CSOIC

CERDIP-8, TO-99-8

CERDIP-8, TO-99-8

CERDIP-8

14-CDIP, KGD

Space Products Guide

16

Texas Instruments 2012

Selection Tables

Amplifiers and Linear (continued)

Standard Operational Amplifiers

Device Orderable   Description  

LM148QML JM38510/11001SCA Series quad 741 op amp

LF411QML 5962R1122201VZA Low-offset, low-drift JFET input op amp

LM101AQML 5962L9951501VxA Op amp

Radiation

Tolerance  

100 krad,

ELDRS-free

50 krad,

Gain

Bandwidth

(MHz)

0.9

4.0

1.0

Channels  

4

1

Supply

Voltage Range (V)

10 to 44

10 to 36, 44

Offset

Voltage (mV)  

5.0

2.0

Supply

Current

(mA)  

0.6

Packaging  

CERDIP-14

1.8 Ceramic SOIC-10

1 10 to 44 2.0

LM108AQML 5962R9863702VxA

LM124QML 5962R9950401VxA

Op amp

Low-power op amp

LM124QML 5962R9950402VxA Low-power op amp

Quad op-amp LM124-SP 5962-9950403VxA

LM158QML 5962R8771002VxA Low-power, dual op amp

LM158QML 5962R8771003VxA Low-power, dual op amp

x – Indicates multiple package options available

Precision Operational Amplifiers

100 krad

100 krad

100 krad,

ELDRS-free

40 krad

100 krad

100 krad,

ELDRS-free

1.0

1.0

1.2

1.0

1.0

1

4

4

4

2

2

±2 to ±20

3.0 to 32

3.0 to 32

3.0 to 32

3.0 to 32

3.0 to 32

0.5

2.0

2.0

1.0

2.0

2.0

1.8 CERDIP-8,

10-CFP,

TO99-8

0.6

10-CFP, 10-CSOIC,

TO99-8

0.18 14-CFP,

14-CSOIC,

CERDIP-14

1.8 14-CFP,

14-CSOIC,

CERDIP-14

0.8

14-CDIP,

KGD

0.25 8-CFP, 10-CSOIC,

TO99-8

0.25 8-CFP, 10-CSOIC,

TO99-8

Device Orderable

LMP2012QML 5962L0620601VZA

Radiation Tolerance

50 krad

LMP2012QML 5962L0620602VZA 50 krad, ELDRS-free

High Speed Operational Amplifiers

TCVos

(µV/°C)

0.015

0.015

CMRR

(dB)

90

90

PSRR

(dB)

90

90

Voltage Noise

(nV/Hz)

35

35

Channels

2

2

Supply Current per

Channel (mA)

0.919

0.919

Packaging

10-CSOIC

10-CSOIC

Device Orderable Description

LM6172QML 5962F9560401VxA Dual, high-speed, low-power, low-distortion voltage feedback op amp

LM6172QML 5962R9560403VxA Dual, high-speed, low-power, low-distortion voltage feedback op amp

LM7171QML 5962F9553601VxA Very high-speed, high- output current voltage feedback op amp

LM7171QML 5962F9553602VxA Very high-speed, high- output current voltage feedback op amp

LMH6628QML 5962F0254501VxA Dual, wideband, low-noise voltage feedback op amp

LMH6702QML 5962F0254601VxA 1.7 GHz, ultra-low-distortion, wideband op amp

LMH6702QML 5962F0254602VxA 1.7 GHz, ultra-low-distortion, wideband op amp

LMH6715QML 5962F0254701VPA Dual, wideband video op amp

LMH6612QML

Coming soon Single-supply, dual

345 MHz RRO op amp

THS4511-SP 5962-0722201VFA Wideband, fully differential amplifier, 100 MHz, 1 ch

THS4513-SP 5962-0722301VFA Wideband, fully differential amplifier, 100 MHz, 1 ch

THS4304-SP 5962-0721901VHA 1GHz wideband low noise,

1 channel

x – Indicates multiple package options available

Space Products Guide

Radiation

Tolerance

300 krad

100 krad,

ELDRS-free

-3 dB BW

(MHz)

160

Supply Voltage

Range (V)

5.5 to 36

Supply Current

(mA)

2.3

Channels

2

Offset

Voltage (mV) Packaging

1.5, 3 CDIP-8,

16-CSOIC

160 5.5 to 36 2.3

2 1.5, 3 CDIP-8,

16-CSOIC

300 krad 220 5.5 to 36 6.5

1

300 krad,

ELDRS-free

300 krad

300 krad

300 krad

ELDRS-free

300 krad

300 krad

150 krad

150 krad

150 krad

220

300

1700

1700

480

365

110

110

110

17

5.5 to 36

5.0 to 12

10 to 12

10 to 12

10 to 12

2.7 to 11

5

5

6

6.5

9.0

12.5

12.5

5.8

3.45

39.2

39.2

18.0

1

2

1

1

2

2

1

1

1

1.0

1.0

2.0

4.5

4.5

6.0

0.6

4, 5.5

4, 5.5

16-CFP

16-CFP

1.0

10-CFP

In Qualification

Texas Instruments 2012

CDIP-8,

10-CFP,

10-CSOIC

CDIP-8,

10-CFP,

10-CSOIC

CERDIP-8,

10-CSOIC

CERDIP-8,

10-CSOIC

CERDIP-8,

10-CSOIC

CERDIP-8

10-CSOIC

Selection Tables

Data Converters

Analog to Digital Converter (High Speed)

Device

ADC10D1000QML

ADC08D1520QML

ADC14155QML

ADS5400-SP

ADS5424-SP

ADS5444-SP

ADS5463-SP

E

E

E

Orderable

ADC10D1000CCMLS

5962F0721401VZC

ADC14155W-MLS

ADS5400MHFSV,

5962-0924001VXC

5962-0720601VXC

5962-0720701VXC

5962R0720802VXC,

5962-0720801VXC

Radiation

Tolerance

100 krad

300 krad

100 krad

50 krad

100 krad

100 krad

100 krad

Sampling

Rate

1.0 GSPS

1.5 GSPS

155 MSPS

1.0 GSPS

105 MSPS

250 MSPS

500 MSPS

Power/

Channel (W)

1.45

1.0

0.967

1.0

2.0

2.0

1.0

Input Bandwidth

(GHz)

2.8

2.0

1.1

2.1

0.570

0.5

0.1

ENOB

(bits)

9.0

7.4

11.3

9.2

11.5

11.3

9.0

SNR (dB)

55.6

47

70.1

58

64

6.5

62.2

SFDR (dB)

66.7

55.5

82.3

70

65.4

60.5

51.6

Packaging

CCGA-376

CQFP-128

CQFP-48

100-CQFP

52-CFP

84-CFP

84-CFP

E

Evaluation board New products are listed in bold red.

Analog to Digital Converter (Precision Micropower)

Device

ADC128S102QML

E

E

Evaluation board

Orderable

5962R0722701VZA

Radiation

Tolerance

100 krad

Sampling Rate

50 kSPS to 1 MSPS

Operating

Power (mW)

2.3

Power

Down (µW)

0.25

Interface

Type

Serial

Supply Voltage

Range (V)

2.7 to 5.25

Packaging

16-CSOIC

Digital to Analog Converter (Precision Mircopower)

Device

DAC121S101QML

E

Orderable

5962R0722601VZA

Radiation

Tolerance

100 krad

Resolution

(Bits)

12

E

Evaluation board

Operating

Power (mW)

0.64

Power Down

(µW)

0.14

Interface Type INL (LSB)

Serial ±2.75

Digital-to-Analog Converters (High Speed)

Device Orderable Description

Packaging

10-CSOIC

Radiation

Tolerance

100 krad

Sample/Update

Rate (MSPS)

2400

Settling

Time (µs)

SNR

(dB)

SFDR

(dB)

DNL

LSB

INL

LSB

Supply

Voltage (V)

Power

(mW) Packages

0.0035 60 55 1.75

7.5 3.0, 3.6 2000 192-CBGA

150 krad 400 0.012 67 82 2.5 4.6 3.15, 3.6 660 52-CFP

Analog Front End ( Imaging Systems)

Device

LM98640QML

E

Orderable

LM98640W-MLS

Radiation Tolerance

100 krad

Resolution

14

Sample Rate PGA Range

5 MHz to 40 MHz -3 dB to 18 dB

Offset DAC Range (Fine)

±5 mV

Power Packaging

±122 mW/ch CQFP-68

E

Evaluation board New products are listed in bold red.

Monolithic Sample and Hold Circuits

Device

LF198QML

LF198QML

Orderable

JM38510/12501SGA

5962-8760801VZA

Radiation

Tolerance

Positive Supply

Current (mA)

6.5

6.5

Negative Supply

Current (mV)

-6.5

-6.5

Input Offset

Voltage (mV)

5.0

5.0

Input Bias

Current (nA)

75

75

Acquisition

Time (µs)

10

10

Leakage

(pA)

<100

Packaging

TO99-8

<100 Ceramic SOIC-10

Space Products Guide

18

Texas Instruments 2012

Selection Tables

Interface

General Purpose

Device 

SN55182-SP

SN55183-SP

LVDS

Orderable  

5962-7900801VXA

5962-7900901VCA

Device 

DS90C031QML

DS90C031QML

DS90C032QML

Orderable  

5962R9583301VxA

5962-9583301VFA

5962L9583401VxA

DS90C032QML 5962-9583401VFA

DS90LV031QML DS90LV031AW-MLS

DS90LV032QML DS90LV032AW-MLS

SN55LVDS31-SP 5962-9762101VFA

SN55LVDS32-SP 5962-9762201VFA

SN55LVDS33-SP 5962-0724801VFA

SERDES

Device 

TLK2711-SP

Orderable  

5962-0522101VXC

RS-422 and RS-485

Device Orderable

AM26LS33A-SP 5962-78020

DS16F95QML DS16F95WFQMLV

DS26F31MQML DS26F31MWFQMLV

DS26F32MQML DS26F32MJRQMLV

DS26LS31MQML DS26LS31MJ-QMLV

DS96F174M DS96F174MJ-QMLV

DS96F175M DS96F175MJ-QMLV

Description  

Dual differential line receiver

Dual differential line driver

Description  

Quad CMOS differential line driver

Quad CMOS differential line driver

Quad CMOS differential line receiver

Quad CMOS differential line receiver

3V quad CMOS differential line driver

3V quad CMOS differential line receiver

Quad LVDS transmitter

Quad LVDS receiver

High-speed differential receiver

Description  

1.6- to 2.5-Gbps, low power serializer/deserializer

SMD or Slash Sheet

5962-7802007VEA

5962F8961501VHA

5962F7802302VFA

5962R7802005VEA

5962-7802301VEA

5962-9076502VEA

5962-9076601VEA

Radiation

Tolerance

40 krad [ELDRS]

40 krad [ELDRS]

Vcc (V)

5

5

Description

RS422 quad differential line driver

EIA/485/EIA-422A differential bus transceiver

Quad high speed differential line driver

Quad high speed differential line receiver

Quad high speed differential line driver

RS-485/RS-422 quad differential driver

RS-485/RS-422 quad differential receiver

Radiation

Tolerance

100 krad

50 krad

100 krad

100 krad

100 krad

Radiation

Tolerance

25 krad

Vcc (V)

5

5

5

5

3.3

3.3

–0.5 to 4

–0.5 to 4

–-0.5 to 4

Vcc (V)

2.5

Icc (mA)

10

18

Icc (mA)

25

35

18

25

11

30

15

25

11

Icc (mA)

160

Radiation Tolerance

25 krad

300 krad

300 krad

100 krad

ESD HBM

(kV)  

2

2

Packages  

14-CDIP, CFP

14-CDIP

ESD HBM

(kV)  

3.5

3.5

2

2

6

4.5

8

8

15

Packages  

16-CSOIC,

16-CFP

16-CFP

16-CSOIC,

16-CFP

16-CFP

16-CFP

16-CFP

16-CFP

16-CFP

16-CFP

ESD HBM

(kV)  

2

Packages  

68-CQFP

Packaging

16-CDIP

Cerpack

Cerpack

Cerdip

Cerdip

Cerdip

Cerdip

Leads

16

10

16

16

16

16

16

Clocks/Buffers

Device Orderable Description

CDCM7005-SP 5962-0723001VXC 3.3-V, clock synchronizer and jitter cleaner

SE555-SP 5962-98555 VPA Precision timer monostable oscillator

Radiation

Tolerance

50 krad

25 krad

[ELDRS]

Input level

LVCMOS,

LVPECL

Output Frequency

(Max) (Mhz)

2000

Output

Level

LVPECL,

LVCMOS

TTL

VCC

(V)

3.3

4.5V -

16.5

No. of

Outputs Package

5 52-QCFP

1 8-CDIP

Memory

Device

SMV512K32HFG

Orderable

5962-1123701VXC

Description

16MB (512k x 32) Radiation-hardened SRAM

Radiation

Tolerance

>300 krad

Technology

CMOS

Vdd (V)

Core/IO

3.3/1.8

Idd1 SB

(mA)

0.375

Packages

76p CFP

Space Products Guide

19

Texas Instruments 2012

Selection Tables

Logic

Device

SN54AC14-SP

SN54AC14-SP

SN54AC02-SP

SN54AC00-SP

SN54AC00-SP

SN54AC74-SP

SN54AC244-SP

SN54AC245-SP

SN54AC373-SP

54HC244-SP

54HC273-SP

54HCT244-SP

Orderable

5962-8762402VDA/VCA

5962R8764202VDA/VCA

5962-8761203VDA

5962-8754903VDA/VCA

5962R8754903VDA/VCA

5962R876240xVxA

5962R875520xVxA

5962R877580xVxA

5962R875550xVxA

5962-8409601VRA/VSA

5962-8409901VRA/VSA

5962-8513001VRA/VSA

Description

Hex inverter Schmitt Trigger

RHA Hex inverter Schmitt Trigger

Quadruple 2-input positive-NOR gates

Quadruple 2-input positive-NAND gates

RHA Quadruple 2-input positive-NAND gates

Dual positive-edge-triggered D-type flip-flops w/clear and preset

Octal buffers/drivers with 3-state outputs

Octal bus transceivers with 3-state outputs

Octal D-type transparent latches with 3-state outputs

Octal buffer and line driver with 3-state outputs

Octal D-type flip-flop

Octal buffer and line driver with 3-state outputs

54LVTH244A-SP 5962-9584401V2A/VRA/VSA 3.3-V ABT 16-bit octal buffer/driver with 3-state outputs

54LVTH162245-SP 5962-9678001VXA 3.3-V ABT 16-bit bus transceiver with 3-state outputs

54LVTH162373-SP 5962-9763801VXA 3.3-V ABT 16-bit transparent D-type latch with 3-state outputs

54LVTH162244-SP 5962-9680901VXA

54LVTH16244A-SP 5962-9668501VXA

54ALS244-SP 5962-8683901VRA/VSA

3.3-V ABT 16-bit buffer/driver with 3-state outputs

3.3-V ABT 16-bit buffer/driver with 3-state outputs

Octal buffer and line driver with 3-state outputs

2 to 6

2 to 6

2 to 6

2 to 6

2 to 6

5

Vcc/Vdd

(V)

2 to 6

2 to 6

2 to 6

2 to 6

2 to 6

2 to 6

2.7 to 3.6

2.7 to 3.6

2.7 to 3.6

2.7 to 3.6

2.7 to 3.6

5

Radiation

Tolerance

50 krad

100 krad

50 krad

50 krad

100 krad

100 krad

100 krad

100 krad

100 krad

0.05

0.05

0.05

0.08

0.08

0.08

Icc

(mA)

0.05

0.05

0.05

0.05

0.05

0.05

0.19

0.19

0.19

0.19

0.19

27

Digital Signal Processor

Device   Orderable   Description  

Radiation

Tolerance MFLOPS  

SMJ320C6701-SP 5962-9866102V VXA/VYC 140MHz Floating-point digital signal processor 100 krad 1000

SMV320C6727B-SP

5962-9866102V VXA/VYC 250MHz Floating-point digital signal processor 100 krad 1500

Core Supply

(V)  

1.9

1.2

I/O Supply

(V)  

3.3

3.3

Timers   Packages  

(2) 32-bit 429-CFCBGA, 429-FCLGA

32/64 bit 256-CQFP

In Qualification

Enhanced Low Dose Rate Sensitivity

DLA Unique Low Dose Rate Certified Products

Device

ELDRS-Free Products

LM124AQML

W

LM139AQML

LM117QML

LM136-2.5QML

LM193QML

LM111QML

LM158QML

LM119QML

LM2941QML

LM2940QML

LMP2012QML

LM7171QML

E, W

Description

Low-power, quad operational amplifier

Low-power, low-offset voltage quad comparator

3-terminal adjustable regulator

2.5V reference diode

Low-power, low-offset voltage, dual comparator

Voltage comparator

Low-power, dual operational amplifier

High-speed, dual comparator

1A, low-dropout adjustable regulator

1A, low dropout regulator

Dual, high precision, rail-to-rail output op amp

High-speed, high-output voltage feedback amp

LMH6702QML

LF411QML

1.7 GHz, ultra-low-distortion, wideband op amp

Low-offset, low-drift JFET input op amp

Low-Dose Rate Qualified Products

LM117HVQML

LM4050QML

3-terminal adjustable regulator

Precision micropower shunt voltage reference

x – Indicates multiple package options available

E

Evaluation board

W

WEBENCH

®

enabled

Space Products Guide

20

TID Part Number

5962R9950401VxA

5962R9673801VxA

5962R9951703VxA

5962R0050101VxA

5962R9452602VxA

5962L0052401VxA

5962R8771002VxA

5962R9679801VxA

5962L0620601VxA

5962F9553601VxA

5692F02545501VxA

5962R0722901VxA

ELDRS Part Number

5962R9950402VxA

5962R9673802VxA

5962R9951705VxA

5962R0050102VxA

5962R9452603VxA

5962R0052402VxA

5962R8771003VxA

5962R9679802VxA

5962R9166702VxA

5962R8958704VxA

5962L0620602VxA

5962F9553602VxA

5962F0254502VxA

5962R1122201VZA

5962R0722961VxA

5962R0923561VZA

Texas Instruments 2012

Packages

14-CDIP CFP

14-CDIP CFP

14-CDIP CFP

14-CDIP CFP

14-CDIP CFP

14-CDIP CFP

14-CDIP CFP

14-CDIP CFP

14-CDIP CFP

20-CDIP CFP

20-CDIP CFP

20-CDIP CFP

20-LCCC CDIP CFP

48-CFP

48-CFP

48-CFP

48-CFP

20-CDIP CFP

In Qualification

Selection Tables

Die Products

Radiation-Tolerant Die Products – Cross Referencing DSCC-Certified Part Numbers

Device

LM117H MDR

LM117HVH MDR

LM119 MDR

LM124 MDR

LM136-2.5 MDR

LM139 MDR

LM158A MDR

LM193 MDR

LM2940-5.0 MDR

LM2941 MDR

LM6172 MDR

LMH6715-MDR

LMP2012 MDR

High Dose Rate

Orderable

5962R9951703V9A

5962R0722901V9A

5962R9679801V9A

5962R9950401V9A

5962R0050101V9A

5962R9673801V9A

5962R8771002V9A

5962R9452602V9A

5962F9560401V9A

5962F0254701V9A

Low Dose Rate

Device

LM117H MDE

LM117HVH MDE

LM119 MDE

LM124 MDE

LM136-2.5 MDE

LM139 MDE

LM158A MDE

LM193 MDE

LMP2012 MDE

LM2940-5.0 MDE

LM2941 MDE

LM6172-MDE

LMH6715-MDE

LMP2012 MDE

UC1843-SP

LM124-SP

LM139-SP

Orderable

5962R9951705V9A

5962R0722961V9A

5962R9679802V9A

5962R9950402V9A

5962R0050102V9A

5962R9673802V9A

5962R8771003V9A

5962R9452603V9A

5962L0620602V9A

5962R8958702V9A

5962R9166702V9A

5962R9560403V9A

5962L0620602V9A

5962-8670410V9A

5962-9950403V9A

5962-9673802V9A

More radiation-tolerant and ELDRS-free products are in development.

Description

3-terminal adjustable regulator

3-terminal adjustable regulator

High-speed dual comparator

Low-power quad operational amplifier

2.5V reference diode

Low-power, low-offset-voltage quad comparator

Low-power, dual operational amplifier

Low-power, low-offset-voltage dual comparator

Precision dual operational amplifier

1A fixed LDO

1A adjustable LDO

Dual high-speed amp

Dual wide-band video

Dual precision rail-to-rail

QML class-V current-mode PWM controller

Quadruple operational amplifier

Quadruple differential amplifier

Please contact us at: [email protected]

if you require a product not currently offered in die or wafer form, TI will consider die or wafer form offerings of any package product from the broad product portfolio .

Notes

Notes

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Note: Toll-free numbers do not support mobile and IP phones.

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