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LITTLE LOGIC SELECTION GUIDE

CBTLV

LITTLE LOGIC SELECTION GUIDE
CBTLV
DBV(5)
DCK(5)
DBV(6)
DBV(5)
DCK(5)
DBV(6)
YEP DCK(6) DCU YZP DCK(6) DCU
YEP YZP
DBV(5)
DCK(5)
DBV(6) (actual size of chip) YEP
DCK(6)
2Q 2004
2-Overview
Texas Instruments
Overview
A WINNING DESIGN IS LIKE A PUZZLE. TEXAS INSTRUMENTS GIVES YOU THE RIGHT PIECES.
CONTENTS
Overview
Little Logic Products by Performance Little Logic Signal Switches Little Logic Configurables Logic Migration to 3.3-V Future 2 3 4 4 4 5 5 6 7 7 8 8 9 9 14 14 15
Selection Guide
Single-Gate Functions Dual-Gate Functions Triple-Gate Functions Signal-Switch Functions Configurable Functions Translation Functions
Cross-Reference
Competitor Cross-Reference Part Number Definition Competitor Part Prefixes
Selection Guide
ing and maximize ASIC design development. Little Logic devices in 5-pin SOT-23, 5-pin SC-70, 6-pin SOT-23, 6-pin SC-70, 8-pin SM-8, 8-pin US-8 and the NanoStar and NanoFree packages allow designers to place a particular gate function close to related circuitry, shortening and simplifying routes on a board. This represents a major advance over multiple-gate devices,
Packaging
Little Logic Packaging and Mechanical Data 15 Little Logic Package Cross-Reference 15 WCSP Design Summary 16 Introduction to NanoStar and NanoFree 16 Package Data 16 PCB Design Guidelines 18 IR Reflow Profile 19 Stencil Vitals 19 Thermal Characteristics 20 Board-Level Reliability Data 20 Board-Mounting Pick-Up Tools 20 WCSP Testability 20 Electrical Characteristics 21 Packaging Tape and Reel 21 Rework Procedure 22 Geometric Dimensional Tolerances 22 Resources and Support 23 On-Line Help 23 Literature 23 Little Logic Sample Requests 23 TI Worldwide Technical Support 24
Cross-Reference
Space-Saving Package Options
Quad-Gate
14-pin TSSOP 33, 66 mm2
Packaging
Single-Gate
WCSP Design Summary
ers to alter the output of an ASIC without redesign and
Dual-Gate
Little Logic Technology Simplifies Board Layout and Offers Better Overall Performance
Simplified Routing Quick Fixes for ASICs
Resources and Support
Quad Gate Buffer 14-pin TSSOP Single Gate
Single Gate
High Low High Low
Before After
Single Gate
Texas Instruments
Overview-3
LITTLE LOGIC PRODUCTS BY PERFORMANCE
Performance Comparisons Operating Voltage Range (V) 0.8 to 3.6 0.8 to 2.7 1.65 to 5.5 2.0 to 5.5 4.5 to 5.5 4.5 to 5.5 4.5 to 5.5 2.3 to 3.6 Optimized Voltage (V) 3.3 1.8 3.3 5.0 5.0 5.0 5.0 3.3 Propagation Delay - tpd (typ) (ns) 3.5 2.0 3.0 5.0 5.0 0.25 0.25 0.25 Output Drive (mA) 4 8 24 8 8 - - - Input Tolerance (V) 3.6 3.6 5.5 5.5 5.5 5.5 5.5 3.6 IOFF Protection Yes Yes Yes No No Yes Yes Yes
Selection Guide Resources and Support WCSP Design Summary Packaging Cross-Reference Overview
Family AUP AUC LVC AHC AHCT CBT CBTD CBTLV
progagation delay is the calculated RC time constant of the typical on-state resistance of the switch and the specified load capacitance, when driven by an ideal voltage source (zero output impedance). The value listed is a maximum. The FET switch has no output drive. The drive current at the output terminal is determined by the drive current of the device connected at the input terminal of the FET switch.
AHC (Advanced High-Speed CMOS)
· Operating range: 2 to 5.5-V VCC · 5-ns typical tpd SN74AHC1G00 SN74AHC1G02 SN74AHC1G04 SN74AHC1GU04 SN74AHC1G08 SN74AHC1G14 SN74AHC1G32 SN74AHC1G86 SN74AHC1G125 SN74AHC1G126
LVC (Low-Voltage CMOS)
· Operating range: 1.65 to 5.5-V VCC SN74LVC1G00 SN74LVC1G38 SN74LVC1G02 SN74LVC1G57 SN74LVC1G04 SN74LVC1G58 SN74LVC1GU04 SN74LVC1G66 SN74LVC1G06 SN74LVC1G79 SN74LVC1G07 SN74LVC1G80 SN74LVC1G08 SN74LVC1G86 SN74LVC1G10 SN74LVC1G97 SN74LVC1G11 SN74LVC1G98 SN74LVC1G14 SN74LVC1G125 SN74LVC1G17 SN74LVC1G126 SN74LVC1G18 SN74LVC1G240 SN74LVC1G19 SN74LVC1G332 SN74LVC1G27 SN74LVC1G373 SN74LVC1G32 SN74LVC1G374 SN74LVC1G34 SN74LVC1G3157 · 3.0-ns typical tpd SN74LVC1T45 SN74LVC2G00 SN74LVC2G02 SN74LVC2G04 SN74LVC2GU04 SN74LVC2G06 SN74LVC2G07 SN74LVC2G08 SN74LVC2G14 SN74LVC2G17 SN74LVC2G32 SN74LVC2G34 SN74LVC2G53 SN74LVC2G66 SN74LVC2G74 SN74LVC2G79 SN74LVC2G80 SN74LVC2G86 SN74LVC2G125 SN74LVC2G126 SN74LVC2G157 SN74LVC2G240 SN74LVC2G241 SN74LVC2T45 SN74LVC3G04 SN74LVC3GU04 SN74LVC3G06 SN74LVC3G07 SN74LVC3G14 SN74LVC3G17 SN74LVC3G34
AHCT (Advanced High-Speed CMOS)
· Operating range: 4.5 to 5.5-V VCC · 5.0-ns typical tpd SN74AHCT1G00 SN74AHCT1G02 SN74AHCT1G04 SN74AHCT1G08 SN74AHCT1G14 SN74AHCT1G32 SN74AHCT1G86 SN74AHCT1G125 SN74AHCT1G126
AUC (Advanced Ultra-Low-Voltage CMOS) AUP (Advanced Ultra-Low-Power CMOS)
· Operating range: 0.8 to 3.6-V VCC · 3.5-ns typical tpd SN74AUP1G08 SN74AUP1G97 SN74AUP1G57 SN74AUP1G98 SN74AUP1G58 · Operating range: 0.8 to 2.7-V VCC SN74AUC1G00 SN74AUC1G79 SN74AUC1G02 SN74AUC1G80 SN74AUC1G04 SN74AUC1G86 SN74AUC1GU04 SN74AUC1G125 SN74AUC1G06 SN74AUC1G126 SN74AUC1G07 SN74AUC1G240 SN74AUC1G08 SN74AUC2G00 SN74AUC1G14 SN74AUC2G02 SN74AUC1G17 SN74AUC2G04 SN74AUC1G32 SN74AUC2GU04 SN74AUC1G66 SN74AUC2G06 SN74AUC1G74 SN74AUC2G07 · 2.0-ns typical tpd SN74AUC2G08 SN74AUC2G14 SN74AUC2G17 SN74AUC2G32 SN74AUC2G34 SN74AUC2G53 SN74AUC2G66 SN74AUC2G74 SN74AUC2G79 SN74AUC2G80 SN74AUC2G86 SN74AUC2G125 SN74AUC2G126 SN74AUC2G157 SN74AUC2G240 SN74AUC2G241 SN74AUC3G04 SN74AUC3GU04 SN74AUC3G06 SN74AUC3G07 SN74AUC3G14 SN74AUC3G17 SN74AUC3G34
4-Overview
Texas Instruments
LITTLE LOGIC SIGNAL SWITCHES
Overview
CBT (Bus Switch)
· Operating range: 4-V to 5.5-V VCC · 0.25-ns typical tpd
LVC (Low-Voltage CMOS)
· Operating range: 1.8-V to 5.5-V VCC · 3.0-ns typical tpd
AUC (Advanced Ultra-Low-Voltage CMOS)
· Operating range: 0.8-V to 2.7-V VCC · 2.0-ns typical tpd
SN74CBT1G125 SN74CBTD1G125
SN74CBT1G384 SN74CBTD1G384
SN74LVC1G66 SN74LVC1G3157
SN74LVC2G53 SN74LVC2G66
SN74AUC1G66 SN74AUC2G53
SN74AUC2G66
CBTLV (Low-Voltage Bus Switch)
Selection Guide · Operating range: 2.3-V to 3.6-V VCC · 0.25-ns typical tpd
LVC1G66 TTL-to-LVTTL Level Shifter
LVTTL
SN74CBTLV1G125
GND B C 5-V TTL Signal
CB3T (Low-Voltage Translation Bus Switch)
· Operating range: 2.3-V to 3.6-V VCC · 0.25-ns typical tpd
LVC1G66
SN74CB3T1G125
Cross-Reference
Visit www.ti.com / signalswitches for the Application Report, Selecting the Right TI Signal Switch.
LITTLE LOGIC CONFIGURABLES
AUP (Advanced Ultra-Low-Power CMOS)
· Operating range: 0.8-V to 3.6-V VCC · 3.5-ns typical tpd
Inverter
SN74AUP1G57 SN74AUP1G97
Packaging
SN74AUP1G58 SN74AUP1G98
LVC (Low-Voltage CMOS)
· Operating range: 1.8-V to 5.5-V VCC · 3.0-ns typical tpd
SN74LVC1G57 SN74LVC1G97
SN74LVC1G58 SN74LVC1G98
The next-generation configurable devices in the Little Logic portfolio are the 1G97 / 98 functions in both the LVC and AUP technologies. By providing nine single-gate logic solutions in one device, the 1G97 / 98 allows reductions in device inventory and simplifies part management.
Buffer
Selector
Inverter
Buffer
Selector with Inverter
WCSP Design Summary
LOGIC MIGRATION TO 3.3-V FUTURE
AHC- 7.0 ns AHCT-7.1 ns LVC-3.4 ns
5V Supply Voltage (VCC) 4
AHC-10.5 ns AUP-4.3 ns LVC-3.6 ns
Resources and Support
LVC-4.4 ns AUP-5.5 ns AUC-2.0 ns
LVC-7.2 ns AUP-8.2 ns AUC-2.4 ns
AUC-2.3 ns AUP-10.3 ns
AUC-3.3 ns AUP-15.6 ns
AUC-4.7 ns AUP-18.0 ns
0 Technology Advancement
Texas Instruments
Selection Guide-5
SINGLE-GATE FUNCTIONS
Performance Function 1G00 1G02 1G04 1GU04 1G06 1G07 1G08 1G10 1G11 1G14 1G17 1G18 1G19 1G27 1G32 1G34 1G38 1G74 1G79 1G80 1G86 1G125 1G126 1G175 1G240 1G332 1G373 1G374 1G386 Description Single 2 Input NAND Gate Single 2 Input NOR Gate Single Inverter Single Unbuffered Inverter Single Inverter Buffer / Driver w / Open Drain Output Single Buffer / Driver w / Open Drain Output Single 2-Input AND Gate Single 3-Input NAND Gate Single 3-Input AND Gate Single Schmitt Trigger Inverter Single Schmitt Trigger Buffer 1 of 2 Non-Inverting Mux 1 of 2 Decoder / Demultiplexer Singel 3-Input NOR Gate Single 2-Input OR Gate Single Buffer Gate Single 2-Input NAND Gate w / Open Drain Output Single Positive-Edge-Triggered D-Type Flip-Flop Single D-Type Flip-Flop Single D-Type Flip-Flop Single 2-Input Exclusive-OR Gate Single Bus Buffer Gate w / 3-State Output Single Bus Buffer Gate w / 3-State Output Single D-Type Flip-Flop w / Asynch Clr Single Buffer / Driver w / 3-State Output Single 3-Input OR Gate Single D-Type Latch w / 3-State Output Single D-Type Flip-Flop w / 3-State Output Single 3-Input Exclusive-OR Gate Package Overview Resources and Support WCSP Design Summary Packaging Cross-Reference Selection Guide AHC AHCT LVC AUC AUP DBV DCK DCT DCU YEP YZP A A A A A A A A A A A A A A A A A A A A A A A A P A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A P A A A A A A A A A A A
YZP (NanoFree) is the Pb-Free version of NanoStar. NOTE: Visit www.ti.com / littlelogic for product release updates. Information above valid as of April 2004.
Single-Gate Diagrams
AHC AHCT LVC AUC
LVC AUC
1G04 / 1GU04
AHC AHCT LVC AUC
AHC AHCT LVC AUC AUP
LVC AUC
AHC AHCT LVC AUC
LVC AUC
AHC AHCT LVC AUC
1G125
LVC AUC
1G126
1G175
1G240
1G332
1G373
1G374
1G386
6-Selection Guide
Texas Instruments
DUAL-GATE FUNCTIONS
Performance Overview Function 2G00 2G02 2G04 2GU04 2G06 2G07 Selection Guide 2G08 2G14 2G17 2G32 2G34 2G38 2G53 2G74 Cross-Reference 2G79 2G80 2G86 2G125 2G126 2G157 2G240 Packaging 2G241 Description Dual 2-Input NAND Gate Dual 2-Input NOR Gate Dual Inverter Dual Unbuffered Inverter Dual Inverter w / Open Drain Output Dual Non-Inverter w / Open Drain Output Dual 2-Input AND Gate Dual Schmitt Inverter Dual Schmitt Trigger Input Buffers Dual 2-input OR Gate Dual Non-Inverter Dual 2-Input NAND Gate w / Open Drain Output 2:1 Analog Multiplexer / Demultiplexer Single Positive Edge Triggered D-Type Flip Flop w / Clear & Reset Dual Positive-Edge-Triggered D-Type Flip-Flop Dual Positive-Edge-Triggered D-Type Flip-Flop Dual 2-Input Exclusive-OR Gate Dual Bus Buffer Gate w / 3-State Outputs Dual Bus Buffer Gate w / 3-State Outputs Single 2 Line to 1 Line Data Selector / Multiplexer Dual Bus Buffer Gate w / 3-State Outputs Dual Buffer / Driver w / 3-State Outputs P P A A A A A A A A A A A P A A A A A A A A A A
Dual-Gate Diagrams
LVC AUC
WCSP Design Summary
2G04 / 2GU04
LVC AUC
Resources and Support
LVC AUC
2G157
2G240
2G241
LVC AUC
2G125
2G126
Texas Instruments
Selection Guide-7
TRIPLE-GATE FUNCTIONS
Performance Function 3G04 3GU04 3G06 3G07 3G14 3G17 3G34 Description Triple Inverter Gate Triple Inverter Gate (Unbuffered) Triple Inverter Buffer / Driver w / Open Drain Output Triple Buffer / Driver w / Open Drain Output Triple Schmitt Trigger Inverter Triple Schmitt Trigger Buffer Triple Buffer Gate LVC A A A A A A A AUC P P P P P P P DCT A A A A A A A
YZP (NanoFree) is the Pb-Free version of NanoStar. NOTE: Visit www.ti.com / littlelogic for product release updates. Information above valid as of April 2004.
Triple-Gate Diagrams
LVC AUC
SIGNAL-SWITCH FUNCTIONS
Performance Function 1G66 1G125 1G384 1G3157 2G53 2G66 Description Single Analog Switch Single FET Bus Switch Single FET Bus Switch Single-Pole, Double-Throw (SPDT) Analog Switch Single-Pole, Double-Throw (SPDT) Analog Switch Dual Analog Switch A A
Packaging LVC A AUC DBV (5) DCK (5) DBV (6) DCK (6) DCT A A A A A A A A A A A A A A A A DCU YEP A P P A A A YZP A P A A A WCSP Design Summary Resources and Support Packaging P
CB3T CBTD CBTLV
Signal-Switch Diagrams
LVC AUC
CBT CB3T CBTD CBTLV
CBT CBTD
LVC AUC
1G125
1G384
1G3157
Cross-Reference
3G04 / 3GU04
Selection Guide
Overview
8-Selection Guide
Texas Instruments
CONFIGURABLE FUNCTIONS
Performance Overview Function 1G57 1G58 1G97 1G98 Description Configurable Multiple-Function Gate Configurable Multiple-Function Gate Configurable Multiple-Function Gate Configurable Multiple-Function Gate LVC A A A A AUP A A A A DBV A A A A
YZP (NanoFree) is the Pb-Free version of NanoStar. NOTE: Visit www.ti.com / littlelogic for product release updates. Information above valid as of April 2004.
Selection Guide
Configurable Diagrams
LVC AUP
Cross-Reference
TRANSLATION FUNCTIONS
Performance Function 1T45 2T45 Description Single-Bit Dual-Supply Transceiver w / Configurable Voltage Translation and 3-State Outputs Dual-Bit Dual-Supply Transceiver w / Configurable Voltage Translation and 3-State Outputs A P
Package DBV A DCK A A A
Packaging
YZP (NanoFree) is the Pb-Free version of NanoStar. NOTE: Visit www.ti.com / littlelogic for product release updates. Information above valid as of April 2004.
Translation Diagrams
LVC AVC
WCSP Design Summary
Resources and Support
COMPETITOR CROSS-REFERENCE
AHC Devices (5-pin, unless noted)
Function 1G00 1G02 1G04 1GU04 1G08 1G14 1G32 1G86 1G125 1G126 Company (Prefix): Single 2-Input NAND Gate Single 2-Input NOR Single Inverter Single Inverter (Unbuffered) Single 2-Input AND Single Inverter w / Schmitt Trigger Single 2-Input OR Single 2-Input Exclusive-OR Single Bus Buffer Gate w / 3-State Single Bus Buffer Gate w / 3-State TI (AHC) SN74AHC1G00 SN74AHC1G02 SN74AHC1G04 SN74AHC1GU04 SN74AHC1G08 SN74AHC1G14 SN74AHC1G32 SN74AHC1G86 SN74AHC1G125 SN74AHC1G126 Toshiba (TC7S / W) TC7SH00 TC7SH02 TC7SH04 TC7SHU04 TC7SH08 TC7SH14 TC7SH32 TC7SH86
Texas Instruments
For up-to-date cross-reference information, visit www.ti.com / littlelogic
Fairchild (NC7S) NC7S00 NC7S02 NC7S04 NC7SU04 NC7S08 NC7S14 NC7S32 NC7S86 ON (VHC) MC74VHC1G00 MC74VHC1G02 MC74VHC1G04 MC74VHC1GU04 MC74VHC1G08 MC74VHC1G14 MC74VHC1G32 MC74VHC1G86 MC74VHC1G125 MC74VHC1G126 STMicro (V1G) 74V1G00 74V1G02 74V1G04 74V1GU04 74V1G08 74V1G14 74V1G32 74V1G86 74V1G125 74V1G126 Philips 74AHC1G00 74AHC1G02 74AHC1G04 74AHC1GU04 74AHC1G08 74AHC1G14 74AHC1G32 74AHC1G86 74AHC1G125 74AHC1G126
AHCT Devices (5-pin, unless noted)
Function 1G00 1G02 1G04 1G08 1G14 1G32 1G86 1G125 1G126 Company (Prefix): Single 2-Input NAND Single 2-Input NOR Single Inverter Single 2-Input AND Single Inverter w / Schmitt Trigger Single 2-Input OR Single 2-Input Exclusive-OR Single Bus Buffer Gate w / 3-State Single Bus Buffer Gate w / 3-State TI (AHCT) SN74AHCT1G00 SN74AHCT1G02 SN74AHCT1G04 SN74AHCT1G08 SN74AHCT1G14 SN74AHCT1G32 SN74AHCT1G86 SN74AHCT1G125 SN74AHTC1G126 Toshiba (TC7SE / WT) TC7SET00 TC7SET02 TC7SET04 TC7SET08 TC7SET32 TC7SET86 Fairchild (NC7ST) NC7ST00 NC7ST02 NC7ST04 NC7ST08 NC7ST32 NC7ST86 ON (VHC1GT) MC74VHC1GT00 MC74VHC1GT02 MC74VCH1GT04 MC74VHC1GT08 MC74VHC1GT14 MC74VHC1GT32 MC74VHC1GT86 MC74VHC1GT125 MC74VHC1GT126 STMicro (V1T) 74V1T00 74V1T02 74V1T04 74V1T08 74V1T14 74V1T32 74V1T86 74V1T125 74V1T126 Philips 74AHCT1G00 74AHCT1G02 74AHCT1G04 74AHCT1G08 74AHCT1G14 74AHCT1G32 74AHCT1G86 74AHCT1G125 74AHCT1G126
LVC Devices
Function Company (Prefix): Single Gate (5-pin, unless noted) 1G00 Single 2-Input NAND 1G02 Single 2-Input NOR 1G04 Single Inverter 1GU04 Single Inverter (Unbuffered) 1GX04 Crystal Driver 1G06 Single Inverter Buffer / Driver w / Open Drain 1G07 Single Buffer / Driver w / Open Drain 1G08 Single 2-Input AND 1G10 Single 3-Input NAND 1G11 Single 3-Input AND
1Preview 26-pin
TI (LVC) SN74LVC1G00 SN74LVC1G02 SN74LVC1G04 SN74LVC1GU04 SN74LVC1GX041 SN74LVC1G06 SN74LVC1G07 SN74LVC1G08 SN74LVC1G10 SN74LVC1G112
Fairchild (NC7S / WZ) NC7SZ00 NC7SZ02 NC7SZ04 NC7SZU04
ON (SZ) NL17SZ00 NL17SZ02 NL17SZ04 NL17SZU04 NL17SZ06 NL17SZ07 NL17SZ08
Toshiba (TC7S / WZ) TC7SZ00 TC7SZ02 TC7SZ04 TC7SZU04
Philips (LVC)
Pericom (STX)
STMicro (LX) 74LX1G00 74LX1G02 74LX1G04 74LX1GU04
IDT (LVC) IDT74LVC1G00A IDT74LVC1G02 IDT74LVC1G04A IDT74LVC1GU04A IDT74LVC1G06A IDT74LVC1G07A IDT74LVC1G08A
Cross-Reference-9
NC7SZ08 NC7SZ102 NC7SZ112
TC7SZ08
74LVC1G00 PI74STX1G00 74LVC1G02 PI74STX1G02 74LVC1G04 PI74STX1G04 74LVC1GU04 PI74STX1GU04 74LVC1GX04 74LVC1G06 74LVC1G07 74LVC1G08 PI74STX1G08
74LX1G07 74LX1G08
package
Resources and Support
WCSP Design Summary
Packaging
Cross-Reference
Selection Guide
Overview
Resources and Support
WCSP Design Summary
Packaging
Cross-Reference
Selection Guide
Overview
COMPETITOR CROSS-REFERENCE (Continued)
LVC Devices
Function Company (Prefix): Single Gate (5-pin, unless noted) (Continued) 1G14 Single Inverter w / Schmitt Trigger 1G17 Single Buffer w / Schmitt Trigger 1G18 1 of 2 Non-Inverting Mux 1G19 1 of 2 Decoder 1G27 Single 3-Input NOR 1G32 Single 2-Input OR 1G34 Single Buffer Gate 1G38 Single 2-Input NAND w / Open Drain 1G79 Single D-Type Flip-Flop 1G80 Single D-Type Flip-Flop 1G86 Single 2-Input EX-OR 1G125 Single Bus Buffer Gate w / 3-State 1G126 Single Bus Buffer Gate w / 3-State 1G132 Single 2-Input NAND w / Schmitt Trigger 1G157 2-input Non-Inverting Mux 1G175 Single D-Type Flip-Flop w / Asynch Clr 1G240 Single bus Buffer Gate w / 3-state 1G332 Single 3-Input OR 1G373 Single D-Type Latch w / 3-State 1G374 Single D-Type Flip-Flop w / 3-State 1G386 Single 3-Input Exclusive-OR Dual Gate (8-pin, unless noted) 2G00 Dual 2-Input NAND 2G02 Dual 2-Input NOR 2G04 Dual Inverter 2GU04 Dual Inverter (Unbuffered) 2G06 Dual Inverter Buffer / Driver w / Open Drain 2G07 Dual BufferDriver w / Open Drain Output 2G08 Dual 2-Input AND 2G14 Dual Inverter w / Schmitt Trigger 2G17 Dual Buffer w / Schmitt Trigger Input 2G32 Dual 2-Input OR 2G34 Dual Buffer Gate 2G38 Dual 2-Input NAND w / Open Drain 2G74 D-Type Flip-Flop w / Pre & CLR 2G79 Dual D-Type Flip-Flop
1Preview 26-pin
10-Cross-Reference
TI (LVC) SN74LVC1G14 SN74LVC1G17 SN74LVC1G182 SN74LVC1G192 SN74LVC1G272 SN74LVC1G32 SN74LVC1G34 SN74LVC1G381 SN74LVC1G79 SN74LVC1G80 SN74LVC1G86 SN74LVC1G125 SN74LVC1G126 SN74LVC1G1321 SN74LVC1G1572 SN74LVC1G1752 SN74LVC1G240 SN74LVC1G3322 SN74LVC1G3732 SN74LVC1G3742 SN74LVC1G3862 SN74LVC2G00 SN74LVC2G02 SN74LVC2G042 SN74LVC2GU04 SN74LVC2G062 SN74LVC2G072 SN74LVC2G08 SN74LVC2G142 SN74LVC2G172 SN74LVC2G32 SN74LVC2G342 SN74LVC2G381 SN74LVC2G74 SN74LVC2G79
Fairchild (NC7S / WZ) NC7SZ14 NC7SZ182 NC7SZ192 NC7SZ272 NC7SZ32 NC7SZ38
ON (SZ) NL17SZ14 NL17SZ17 NL7SZ182 NL7SZ192 NL17SZ32 NL17SZ16
Toshiba (TC7S / WZ)
Philips (LVC) 74LVC1G14 74LVC1G17 74LVC1G182 74LVC1G192
Pericom (STX) PI74STX1G14
STMicro (LX) 74LX1G14
IDT (LVC)
TC7SZ32
74LVC1G32
PI74STX1G32
74LX1G32
IDT74LVC1G32A
NC7SZ86 NC7SZ125 NC7SZ126 NC7SZ1572 NC7SZ1752 NC7SZ3322 NC7SZ3732 NC7SZ3742 NC7SZ3862 NC7WZ00 NC7WZ02 NC7WZ042 NC7WZU042 NC7WZ072 NC7WZ08 NC7WZ142 NC7WZ172 NCWZ32 NC7WZ162 NCWZ38 NC7SZ74
NL17SZ86 NL17SZ125 NL17SZ126
TC7SZ86 TC7SZ125 TC7SZ126
74LVC1G79 74LVC1G80 74LVC1G86 74LVC1G125 74LVC1G126
PI74STX1G79 PI74STX1G86 PI74STX1G125 PI74STX1G126 74LX1G86 74LX1G125 74LX1G126 74LX1G132
IDT74LVC1G79A IDT74LVC1G86A IDT74LVC1G125A IDT74LVC1G126A
74LVC1G386 NL27WZ00 NL27WZ02 NL27WZ042 NL27WZU042 NL27WZ062 NL27WZ072 NL27WZ08 NL27WZ142 NL27WZ172 NL27WZ32 NL27WZ162 NL17SZ74 TC7WZ00 TC7WZ02 TC7WZ04 TC7WZU04 74LVC2G00 74LVC2G02 74LVC2G042 74LVC2GU042 74LVC2G06 74LVC2G072 74LVC2G08 74LVC2G142 74LVC2G172 74LVC2G32 74LVC2G342 74LVC2G38 PI74STX2G00 PI74STX2G02 PI74STX2G04 PI74STX2GU04
TC7WZ08 TC7WZ14 TC7WZ32 TC7WZ34 TC7WZ38 TC7WZ74
PI74STX2G08 PI74STX2G14 PI74STX2G32
Texas Instruments
PI74STX2G74 PI74STX2G79
package
COMPETITOR CROSS-REFERENCE (Continued)
LVC Devices (Continued)
Function Company (Prefix): Dual Gate (8-pin, unless noted) (Continued) 2G80 Dual D-Type Flip-Flop 2G86 Dual 2-Input Exclusive-OR 2G125 Dual Bus Buffer Gate w / 3-State 2G126 Dual Bus Buffer Gate w / 3-State 2G132 Dual 2-Input NAND w / Schmitt Trigger Input 2G157 2-input Non-Inverting Mux 2G240 Dual Bus Buffer Gate w / 3-State 2G241 Dual Bus Buffer Gate w / 3-State Triple Gate (8-pin, unless noted) 3G04 Triple Inverter 3GU04 Triple Inverter (Unbuffered) 3G06 Triple Inverter Buffer / Driver w / Open Drain 3G07 Triple Buffer / Driver w / Open Drain 3G14 Triple Inverter w / Schmitt Trigger 3G17 Triple Buffer w / Schmitt Trigger 3G34 Triple Buffer
1Preview 26-pin
Texas Instruments
TI (LVC) SN74LVC2G80 SN74LVC2G86 SN74LVC2G125 SN74LVC2G126 SN74LVC2G1321 SN74LVC2G157 SN74LVC2G240 SN74LVC2G241 SN74LVC3G04 SN74LVC3GU041 SN74LVC3G06 SN74LVC3G07 SN74LVC3G14 SN74LVC3G17 SN74LVC3G34
Fairchild (NC7S / WZ)
ON (SZ)
Toshiba (TC7S / WZ)
Philips (LVC)
Pericom (STX)
STMicro (LX)
IDT (LVC)
NC7WZ86 NC7WZ125 NC7WZ126 NC7WZ132 NC7WZ240 NC7WZ241 NC7NZ04 NC7NZU04
NL27WZ86 NL27WZ125 NL27WZ126
74LVC2G86 74LVC2G125 74LVC2G126
PI74STX2G86 PI74STX2G125 PI74STX2G126
74LVC2G240 74LVC2G241 NL37WZ04 NL37WZ06 NL37WZ07 NL37WZ14 NL37WZ17 NL37WZ16 TC7WZ04 TC7WZU04 PI74STX3G04 PI74STX3GU04
NC7NZ14 NC7NZ17 NC7NZ34
TC7WZ14 TC7WZ34
PI74STX3G14
package
Cross-Reference-11
Resources and Support
WCSP Design Summary
Packaging
Cross-Reference
Selection Guide
Overview
12-Cross-Reference
Texas Instruments
COMPETITOR CROSS-REFERENCE (Continued)
AUC Devices
Function Company (Prefix): Single Gate (5-pin, unless noted) 1G1G00 Single 2-Input NAND 1G02 Single 2-Input NOR 1G04 Single Inverter 1GU04 Single Inverter (Unbuffered) 1G06 Single Inverter Buffer / Driver w / Open Drain 1G07 Single Buffer / Driver w / Open Drain 1G08 Single 2-Input AND 1G11 Single 3-Input AND 1G14 Single Inverter w / Schmitt Trigger 1G17 Single Buffer w / Schmitt Trigger 1G32 Single 2-Input OR 1G74 D-Type Flip-Flop w / Pre & CLR 1G79 Single D-Type Flip-Flop 1G80 Single D-Type Flip-Flop 1G86 Single 2-Input Exclusive-OR 1G125 Single Bus Buffer Gate w / 3-State 1G126 Single Bus Buffer Gate w / 3-State 1G240 Single Bus Buffer Gate w / 3-State Dual Gate (8-pin, unless noted) 2G00 Dual 2-Input NAND 2G02 Dual 2-Input NOR 2G04 Dual Inverter 2GU04 Dual Inverter (Unbuffered) 2G06 Dual Inverter Buffer / Driver w / Open Drain Output 2G07 Dual Buffer / Driver w / Open Drain Output 2G08 Dual 2-Input AND 2G14 Dual Inverter w / Schmitt Trigger 2G17 Dual Buffer w / Schmitt Trigger Input 2G32 Dual 2-Input OR 2G34 Dual Buffer 2G79 Dual D-Type Flip-Flop 2G80 Dual D-Type Flip-Flop 2G86 Dual 2-Input Exclusive-OR 2G125 Dual Bus Buffer Gate w / 3-State 2G126 Dual Bus Buffer Gate w / 3-State 2G240 Dual Bus Buffer Gate w / 3-State 2G241 Dual Bus Buffer Gate w / 3-State
1Preview 26-pin
Overview
TI (AUC) SN74AUC1G00 SN74AUC1G02 SN74AUC1G04 SN74AUC1GU04 SN74AUC1G06 SN74AUC1G07 SN74AUC1G08 SN74AUC1G111 SN74AUC1G14 SN74AUC1G17 SN74AUC1G32 SN74AUC1G74 SN74AUC1G79 SN74AUC1G80 SN74AUC1G86 SN74AUC1G125 SN74AUC1G126 SN74AUC1G240 SN74AUC2G00 SN74AUC2G02 SN74AUC2G042 SN74AUC2GU04 SN74AUC2G062 SN74AUC2G072 SN74AUC2G08 SN74AUC2G141 SN74AUC2G171 SN74AUC2G32 SN74AUC2G342 SN74AUC2G79 SN74AUC2G80 SN74AUC2G86 SN74AUC2G125 SN74AUC2G126 SN74AUC2G240 SN74AUC2G241
Fairchild (NC7SV) NC7SV00 NC7SV02 NC7SV04 NC7SVU04
ON (SV) NL17SV00 NL17SV02 NL17SV04
Selection Guide
NC7SV08 NC7SV11 NC7SV14 NC7SV17 NC7SV32 NC7SV74
NL17SV08
NL17SV32
NC7SV86 NC7SV125 NC7SV126
Cross-Reference
NC7WV04
NC7WV07 NC7WV14 NC7WV17 NC7WV16
Packaging
NC7WV125
WCSP Design Summary
package
Resources and Support
Texas Instruments
Cross-Reference-13
COMPETITOR CROSS-REFERENCE (Continued)
AUP Devices (5-pin, unless noted)
Function 1G00 1G02 1G04 1G06 1G07 1G08 1G14 1G17 1G32 1G34 1G79 1G80 1G125 1G126 1G240
1Preview
Company (Prefix): Single 2-Input NAND Single 2-Input NOR Single Inverter Single Inverter Buffer / Driver w / Open Drain Single Buffer / Driver w / Open Drain Single 2-input AND Single Inverter w / Schmitt Trigger Single Buffer w / Schmitt Trigger Single 2-Input OR Single Buffer Single D-Type Flip-Flop Single D-Type Flip-Flop Single Bus Buffer Gate w / 3-State Single Bus Buffer Gate w / 3-State Single Bus Buffer Gate w / 3-State
TI (AUC) SN74AUP1G001 SN74AUP1G021 SN74AUP1G041 SN74AUP1G061 SN74AUP1G071 SN74AUP1G08 SN74AUP1G141 SN74AUP1G171 SN74AUP1G321 SN74AUP1G341 SN74AUP1G791 SN74AUP1G801 SN74AUP1G1251 SN74AUP1G1261 SN74AUP1G2401
Fairchild (NC7SV) NC7SP00 NC7SP02 NC7SP04
NC7SP125 NC7SP126
Signal-Switch Devices
Function CBT1G125 CBTD1G125 CBT1G384 CBTD1G384 CBTLV1G125 AUC1G66 AUC2G53 AUC2G66 LVC1G66 LVC1G3157 LVC2G53 LVC2G66 Company: Single FET Bus Switch Single FET Bus Switch Single Low Power Bus Switch 384 Function w / Level Shifting Single LV FET Bus Switch Single Analog Switch SPDT Analog Switch Dual Analog Switch Single Analog Switch SPDT Analog Switch SPDT Analog Switch Dual Analog Switch TI SN74CBT1G125 SN74CBTD1G125 SN74CBT1G384 SN74CBTD1G384 SN74CBTLV1G125 SN74AUC1G66 SN74AUC2G53 SN74AUC2G66 SN74LVC1G66 SN74LVC1G3157 SN74LVC2G53 SN74LVC2G66 Toshiba Fairchild Philips Pericom P15A125 TC7SB384 TC7SBD384 NC7SZ384 NC7SZD384 P13A125 TC7PA53 NC7SZ66 NC7SB3157 NC7WB66 74LVC1G66 Packaging Fairchild NC7SZ57 NC7SZ58 WCSP Design Summary IDT Resources and Support NC7SP57 NC7SP58 NC7SV57 NC7SV58 Pericom Cross-Reference
Configurable Devices
Function LVC1G57 LVC1G58 LVC1G97 LVC1G98 AUP1G57 AUP1G58 AUP1G97 AUP1G98 AUC1G57 AUC1G58
1Preview
Company: Single Configurable (5 functions) Single Configurable (5 functions) Single Configurable (9 functions) Single Configurable (9 functions) Single Configurable (5 functions) Single Configurable (5 functions) Single Configurable (9 functions) Single Configurable (9 functions) Single Configurable (5 functions) Single Configurable (5 functions)
TI SN74LVC1G57 SN74LVC1G58 SN74LVC1G97 SN74LVC1G98 SN74AUP1G57 SN74AUP1G58 SN74AUP1G97 SN74AUP1G98 SN74AUC1G571 SN74AUC1G581
Translation Devices
Function LVC1T45 LVC2T45 AVC1T45 AVC2T45 AVCH1T45 AVCH2T45
1Preview
Company: Single-Bit All devices are Dual-Supply Bus Dual-Bit Transceivers w / Configurable Voltage Single-Bit Translation and 3-State Outputs Dual-Bit Single-Bit (w / Bus Hold) Dual-Bit (w / Bus Hold)
TI SN74LVC1T45 SN74LVC2T45 SN74AVC1T451 SN74AVC2T451 SN74AVCH1T451 SN74AVCH2T451
Fairchild
Selection Guide
NC7SP08 NC7SP14 NC7SP17 NC7SP32 NC7SP34
Overview
14-Cross-Reference
Texas Instruments
PART NUMBER DEFINITION
Overview
Selection Guide
Cross-Reference
COMPETITOR PART PREFIXES
TI Little Logic SN74AHC1G SN74AHCT1G SN74AUC1G SN74AUC2G Toshiba TC7S TC7SET Fairchild NC7S NC7ST NC7SV NC7WV NC7SP TC7SZ TC7WZ NC7SZ NC7WZ NC7NZ NL17SZ NL27WZ NL37WZ 74LX1G 74LVC1G 74LVC2G IDT74LVC1G P174STX1G P174STX2G P174STX3G ON MC74VHC1G MC74VHC1GT NL17SV STMicro 74V1G 74V1T Philips 74AHC1G 74AHCT1G IDT Pericom
Packaging
SN74AUP1G SN74LVC1G SN74LVC2G
SN74LVC3G TC7WZ Little Logic Signal Switches SN74AUC2G WCSP Design Summary SN74CBT1G SN74CBTD1G SN74CBTLV1G SN74LVC1G66 SN74LVC2G66 Little Logic Configurables SN74AUP1G57 SN74AUP1G58 Resources and Support SN74LVC1G57 SN74LVC1G58 Little Logic Translation SN74LVC1T45 SN74LVC2T45 TC7PA TC7SB TC7SBD TC7SBL
NC7SZ NC7SZD
P13A NC7SZ66 NC7WB66 NC7SP57 NC7SP58 NC7SZ57 NC7SZ58 74LVC1G66
Texas Instruments
Packaging-15
LITTLE LOGIC PACKAGING AND MECHANICAL DATA
5-pin or 6-pin (Actual Size) 5-pin or 6-pin (Actual Size) Overview Resources and Support WCSP Design Summary Packaging Cross-Reference 0, 50 1, 71 0, 0013 STMicro ST CT Selection Guide
DCT (SM-8)
(Actual Size)
DCU (US-8)
(Actual Size)
DBV (SOT-23)
DCK (SC-70)
Little Logic
NanoStar (YEP)
8-pin
5-pin or 6-pin
NanoStar (YEP)
(Actual Size)
NanoFree (YZP)
Package Data Length (mm) Width (mm) Height (mm) Footprint Area Weight (gm)
LITTLE LOGIC PACKAGE CROSS-REFERENCE
NanoStar NanoFree SOT-23 (5-pin) SC-70 (5-pin) SOT-23 (6-pin) SC-70 (6-pin) SM-8 (8-pin) US-8 (8-pin)
TI Package Suffix Decoder YEP is NanoStar YZP is NanoFree, Pb-Free DBV is 5 and 6-pin leadframe
TI YEP YZP DBV DCK DBV DCK DCT DCU
Fairchild L6 M5 P5 DT P6 K8
Toshiba
Philips
Pericom
Nanostar measures smaller than L6 package.
Note: Pb-Free, NanoFree classified per J-STD-020B MSL-1 rated.
www.ti.com / nanostar
DCK is 5 and 6-pin leadframe, slightly smaller than DBV DBV is 5 and 6-pin leadframe
DCK is 5 and 6-pin leadframe, slightly smaller than DBV DCT is 8-pin leadframe
DCU is 8-pin leadframe, slightly smaller than DCT
16-WCSP Design Summary
Texas Instruments
INTRODUCTION TO NanoStar AND NanoFree
Overview
0, 5 Max.
Selection Guide
(Bottom view) Dimensions in millimeters (mm)
Cross-Reference
NanoFree
PACKAGE DATA
Packaging
3, 0 2, 6 2, 4 1, 8 1, 65 1, 55 0, 95 0, 85 1, 45 1, 35 NanoStar / NanoFree
Dimensions in mm
WCSP Design Summary
Package Comparisons Package Data Length (mm) Width (mm) Height Max (mm) Footprint Area (mm2) Approx. Weight (g)
Available
Resources and Support
3Q 2004.
Texas Instruments
WCSP Design Summary-17
PACKAGE DATA (Continued)
Overview Resources and Support WCSP Design Summary Packaging
1, 00 B 0, 50 A 1 2 Pin A1 Index Area
Dimensions in millimeters (mm)
Dual- / Triple-Gate Comparisons Package Data Length (mm) Width (mm) Height (mm) Footprint Area (mm2) Weight (g) Package Attributes
5-Ball Package
6-Ball Package
C 1, 45 1, 35 1, 00 B 0, 50 A Pin A1 Index Area 1, 45 1, 35
8-Ball Package
0, 50 A Pin A1 Index Area 1 2
Cross-Reference
Selection Guide
18-WCSP Design Summary
Texas Instruments
PCB DESIGN GUIDELINES
Overview
Solder Ball Composition
Solder Bump Eutectic 63 / 37 or SnAgCu Protective Overcoat (UBM) Nitride
Selection Guide
AICu2 Pad
Package Area Configuration (0, 5-mm Ball Pitch)
1, 35 / 1, 45 L x 0, 85 / 0, 95 W (mm) 0, 5 mm Max. Small Ball (YEA / YZA Package) 0, 5 mm Max. 1, 35 / 1, 45 L x 0, 85 / 0, 95 W (mm) Large Ball (YEP / YZP Package)
Cross-Reference
Land on PCB
PCB Design
Packaging
5- / 6-Ball PCB Pattern
NSMD SMD
WCSP Design Summary
Non-Solder Mask Defined (NSMD) Preferred Method Copper Pad Solder Mask Opening
8-Ball PCB Pattern
Resources and Support
Note: Trace width shall be 2 / 3 pad diameter.
PCB Pad (Dimension A or D)
0, 117 mm Trace
PCB Pad (Dimension A or D)
0, 117 mm Trace
Texas Instruments
WCSP Design Summary-19
IR REFLOW PROFILE
SnPb Eutectic (AT-Alloy and S2062) Recommended Temperature Profile Overview
Max. 235°C, Min. 195°C 183 165 135
Data courtesy of Senju
Pb-Free Ball NanoFree Recommended Temperature Profile
Note: These are ideal profiles, and actual conditions obtained in any specified reflow oven will vary. The profiles are based on convection or RF plus forced convection heating.
Max. 260°C, Min. 230°C 220 180
Cross-Reference Resources and Support WCSP Design Summary Packaging
150 Min. 60 sec. Max. 120 sec. Time Min. 30 sec. Max. 90 sec.
STENCIL VITALS
Solder Paste TI recommends the use of type 3 or finer solder paste when mounting the WCSP. The use of paste offers the following advantages: · Paste aids wetting of the solder ball to the PCB land. · The adhesive properties of the paste will hold the component in place during reflow. · Paste contributes to the final volume of solder in the joint, and thus allows this volume to be varied to give an optimum joint. · Paste selection is normally driven by overall system assembly requirements. In general, the "no clean" compositions are preferred due to the difficulty in cleaning under the mounted components. 5- / 6-Ball Solder Stencil (Small / Large Ball)
Stencil Dimensions in mm Stencil Aperture 0, 06 RAD 0, 2
8-Ball Solder Stencil (Small / Large Ball)
Stencil Dimensions in mm Stencil Aperture 0, 06 RAD 0, 2
Selection Guide
Min. 60 sec. Max. 120 sec.
Min. 30 sec. Max. 90 sec.
20-WCSP Design Summary
Texas Instruments
THERMAL CHARACTERISTICS
Overview Thermal Impedance Values at Various Airflow Rates (Model data per JESD 51-7 and JESD 51-3) Thermal Impedance 1S0P RJA (°C / W) RJC (°C / W) 1S2P Selection Guide RJA (°C / W) RJC (°C / W) 6-Ball 1S0P RJA (°C / W) RJC (°C / W) 1S2P RJA (°C / W) RJC (°C / W) 8-Ball 1S0P RJA (°C / W) RJC (°C / W) 1S2P Cross-Reference Large Ball 5-Ball 1S2P RJA (°C / W) RJC (°C / W) 6-Ball 1S2P RJA (°C / W) RJC (°C / W) 8-Ball 1S2P RJA (°C / W) RJC (°C / W) Packaging 131.56 18.0 123.36 17.6 101.92 13.79 129.26 - 121.03 - 99.69 - 128 - 119.8 - 98.5 - 126.08 - 119.3 - 96.75 - RJA (°C / W) RJC (°C / W) Airflow (linear ft / minute) 0 251.66 21.4 154.32 18.75 236.83 21.03 143.47 18.48 236.59 16.45 139.87 14.80 150 233.62 - 152.05 - 219.01 - 141.14 - 218.76 - 137.69 - 250 224.28 - 150.73 - 210.02 - 139.87 - 209.46 - 136.34 - 500 211.12 - 148.72 - 197.39 - 137.93 - 196.32 - 134.34 -
Package Small Ball 5-Ball
BOARD-LEVEL RELIABILITY DATA
WCSP TESTABILITY
Solder Balls Provide Easy Access Due to the ideal placement of the solder balls along the outside of the package along with sufficient ball height, probe tips can easily create a dedicated contact to the individual pins.
WCSP Design Summary
No underfill or adhesive was used, nor is required for these packages. Test Parameters: 2 cycles / hr: -40 to +125°C 0.8-mm thick FR4 epoxy board per IPC-9701, TC3, NTC-C
Resources and Support
BOARD-MOUNTING PICK-UP TOOLS
Due to the package size and configuration, a rectangular or circular shaped pick-up tool is recommended. It is also recommended the tool have an outside diameter smaller than the package body, with a compliant tip. Recommended placement force is 200 gF.
Texas Instruments
WCSP Design Summary-21
ELECTRICAL CHARACTERISTICS
Overview
WCSP (YEA / YZA) C (pF) 6-Ball 0.046
R () Mean 0.001
L (nH) 0.021
5-Ball 0.046
8-Ball 0.043
Note: Electrical package parasitic was achieved through electrical modeling and is based on a 3D model. Actual electrical data may differ slightly from simulated results.
The propagation delay is the calculated RC time constant of the typical on-state resistance of the switch and the specified load capacitance when driven by an ideal voltage source (zero output impedance). The value listed is a maximum. The FET switch has no output drive. The drive current at the output terminal is determined by the drive current of the device connected at the input terminal of the FET switch.
PACKAGING TAPE AND REEL
Reel Tape Configuration (Small / Large Ball)
B0 Pin 1 location is in the upper left-hand corner of the cavity. Units shipped with balls down.
Dimensions in mm
Dimensions Pocket Width, A0 (mm) Pocket Length, B0 (mm) Pocket Depth, K0 (mm) Pocket Pitch, P1 (mm) Sprocket Hole-to-Pocket Centerline, F (mm) Sprocket Hole-to-Pocket Offset, P2 (mm) Sprocket Hole Pitch, P0 (mm) Tape Width, W (mm) Reel Diameter (mm) Max.
Resources and Support
WCSP Design Summary
Packaging
Cross-Reference
Family AUC LVC AHC AHCT CBT CBTD CBTLV
Operating Voltage Range (V) 0.8 to 2.7 1.65 to 5.5 2.0 to 5.5 4.5 to 5.5 4.5 to 5.5 4.5 to 5.5 2.3 to 3.6
Optimized Voltage (V) 1.8 3.3 5 5 5 5 3.3
Propagation Delay (typ) (ns) 2.0 3.0 5.0 5.0 0.25 0.25 0.25
Output Drive (mA) 8 24 8 8 - - -
Input Tolerance (V) 3.6 5.5 5.5 5.5 5.5 5.5 3.6
IOFF Protection Yes Yes No No Yes Yes Yes
Selection Guide
Little Logic Product Portfolio Electrical Performance
22-WCSP Design Summary
Texas Instruments
REWORK PROCEDURE
Overview
Cross-Reference
Selection Guide
The recommended tooling for both the convection and conduction processes is: Process Hot Gas Contact Nozzle Description NanoStar .0365" x .0560" x .0155" 5-ball NanoStar .0365" x .0560" x .0155" 5-ball Nozzle Part Number N09DVG-7 CE037-056TI Tray A04DVG06 A0201X8-OX
Packaging
GEOMETRIC DIMENSIONAL TOLERANCES
Coplanarity
This package meets a coplanarity of 0, 05 mm as shown. Coplanarity is defined as a unilateral tolerance zone measured upward from the seating plane. (Reference ASME Y14.5M - 1994)
Solder Balls 0, 05 mm Seating Plane
Resources and Support
WCSP Design Summary
Texas Instruments
Resources and Support-23
ON-LINE HELP
Overview Resources and Support WCSP Design Summary Packaging Cross-Reference Selection Guide
To access the TI Logic Knowledge Base and get answers to your technical questions go to: www.ti.com / logickb To subscribe to Logic News, a monthly newsletter featuring new products and other TI Logic news, visit: www.ti.com / logicnews
LITERATURE
Selection Guides Lit. Number Logic Selection Guide . . . . . . . . . . . . . . . . .SDYU001 Advanced Bus Interface Logic Selection Guide . . . . . . . . . . . . . . . . . . . .SCYT126 Design Considerations for Logic Products, Volume 3 . . . . . . . . . . . . . . . . .SDYA019 Data Books Little Logic Data Book . . . . . . . . . . . . . . . .SCED010 Logic Pocket Data Book . . . . . . . . . . . . . . .SCYD013 Signal Switch Data Book . . . . . . . . . . . . . . .SCDD003 AHC / AHCT Data Book . . . . . . . . . . . . . . .SCLD003B Application Notes Application of the Texas Instruments AUC Sub-1-V Little Logic Devices . . . . .SCEA027 Selecting the Right Texas Instruments Signal Switch . . . . . . . . . . . . . . . . . . . . . .SZZA030 Brochures / Product Bulletins Lit. Number Logic Reference Guide . . . . . . . . . . . . . . . .SCYB004 AUC Product Brochure . . . . . . . . . . . . . . . .SCEB011 Bus Switches (CBT & CBTLV) Product Bulletin . . . . . . . . . . . . . . . . . .SCDB002A Application / Product Clips 1G97 / 98 Configurable Multi-Function Devices Product Clip . . . . . . . . . . . . . . . .SCYB010 NanoStar / NanoFree Product Clip . . . . . . . .SCYB011 LVC1G3157 & LVC2G53 Analog Switches Application Clip . . . . . . . . . . . . . . . . . . . .SCYB014 To order any TI Logic literature listed, please contact the Texas Instruments Literature Response Center at 1-800-477-8924 and provide the literature number. Literature available on the Web by substituting the Lit. Number (all lower-case) in the following address: www-s.ti.com / sc / techlit / litnumber
LITTLE LOGIC SAMPLE REQUESTS
TI Worldwide Technical Support Internet
TI Semiconductor Product Information Center Home Page
support.ti.com
TI Semiconductor KnowledgeBase Home Page
support.ti.com / sc / knowledgebase
Product Information Centers
Americas
Phone Fax Internet / Email +1(972) 644-5580 +1(972) 927-6377 support.ti.com / sc / pic / americas.htm
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Japan
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Internet / Email International support.ti.com / sc / pic / japan.htm Domestic www.tij.co.jp / pic
Reliable. Logic. Innovation. the black / red banner NanoStar NanoFree Little Logic MicroStar BGA and MicroStar Jr. are trademarks of Texas Instruments. All other trademarks are the property of their respective owners.
SCYT129A