74AHC1G09-Q100 [NXP]
NXP Logic â Q100 logic portfolio; 恩智浦逻辑???? Q100的逻辑组合型号: | 74AHC1G09-Q100 |
厂家: | NXP |
描述: | NXP Logic â Q100 logic portfolio |
文件: | 总2页 (文件大小:1889K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Automotive
Innovative package options
Suffix
BQ
PW
D
PW
BQ
PW
GW
GM
SOT763-1
16-pin
SOT403-1
16-pin
SOT108-1
14-pin
SOT402-1
14-pin
SOT764-1
20-pin
SOT360-1
20-pin
SOT363
6-pin
SOT886
6-pin
Width (mm)
Length (mm)
Pitch (mm)
2.50
3.50
0.50
6.40
5.00
0.65
6.00
8.65
1.27
6.40
5.00
0.65
2.50
4.50
0.50
6.40
6.50
0.65
2.10
2.00
0.65
1.00
1.45
0.50
Q100 Logic samples available in e-sample store. Order them today!
Haven’t found your function? Please contact your local NXP representative.
NXP Logic – Q100 logic portfolio
Continuing to lead the way in automotive logic
www.nxp.com
© 2012 NXP Semiconductors N.V.
All rights reserved. Reproduction in whole or in part is prohibited without the prior written consent of the
copyright owner. The information presented in this document does not form part of any quotation or contract,
is believed to be accurate and reliable and may be changed without notice. No liability will be accepted by
the publisher for any consequence of its use. Publication thereof does not convey nor imply any license under
patent- or other industrial or intellectual property rights.
Date of release: November 2012
Document order number: 9397 750 17356
Printed in the Netherlands
Introduction
Six sigma design, zero defect test and inspection methodology
Display drivers
The operating environment of automobile semiconductor components is much more hostile than that of semiconductors used
in home or portable applications. A television set will generally spend its operating lifetime within an ambient temperature
range of 0 ˚C to 40 ˚C. Due to internal heating, its semiconductor devices can be expected to operate between 20 ˚C and 60 ˚C.
By comparison, an automobile is expected to start at temperatures lower than -20 ˚C and, in some cases, operate within the
engine compartment at temperatures approaching 125 ˚C.
Six sigma design philosophy is applied to all Q100 devices. This ensures that an end user application designed to the datasheet
limits can tolerate a shift as high as one and a half sigma in NXP’s manufacturing processes. As the process control limits are
much tighter than one and a half sigma, this virtually guarantees trouble free end user applications. During electrical test
process, average test limits or statistical test limits are applied to screen outliers within automotive lots. Figure 1 shows the
distribution of devices passing a test and the calculated statistical test limits in red. Although the outliers are within the upper
and lower specification limits they are not delivered as Q100 products.
Display drivers integrate serial-in, parallel-out shift registers, which are common I/O expansion devices, with a number of
MOSFET LED drivers. With 8-bit and 12-bit solutions, shift register based display drivers enable a controller to drive 8 or 12 LED’s
using 3 output lines. Cascading devices as shown in figure 3 increases the number of LED’s controlled by the same 3 output lines.
Display drivers reduce the size, complexity, pin count and ultimately cost of any micro-controller based solution.
To ensure the reliability of automotive electronics, the Automotive Electronics Council introduced its AEC-Q100 standard which
outlines procedures to be followed to ensure integrated circuits meet the quality and reliability levels required by automotive
applications. As the global number one supplier, the introduction of its Q100 logic portfolio shows NXP continuing to lead the
way in automotive logic.
LSL
USL
Statistical test
limits
Key benefits of the Q100 logic portfolio
AEC-Q100 product qualification and reliability monitoring
Outliers
Outliers
Fig. 1 Application of statistical test limits
Quality Summary
Logic Products & MCU
Operating at elevated temperatures reduces the lifetime of a
semiconductor and temperature cycling has a negative impact on
Dedicated website and datasheets
Control logic
Q1/Q2 – 2012
the stability of a package. In cases where there is no history of a
product’s reliability within automotive applications, a series of
stresses to simulate the life cycle within an automotive environment
must be applied to guarantee conformance to the AEC-Q100
standard.
A summary of NXP logic’s Q100 portfolio including a search by function and a parametric search within each function can be
found at www.nxp.com/products/automotive/logic, and unlike the standard types, each Q100 device has a dedicated datasheet
confirming that it has been qualified in accordance with AEC-Q100 and is suitable for automotive applications.
Control applications such as engine control units and body control modules change settings based upon a combination of input
signals. Control logic consists of simple Boolean functions, such as AND or NAND, to facilitate changing settings in simple
sub-systems that don’t require a micro-controller.
Priority technical support
Display Logic
Function
Control Logic
74LVC1G125-Q100
74LVC1G14-Q100
74LVC1G17-Q100
74LVC1G32-Q100
74LVC244A-Q100
74LVC245A-Q100
I/O expansion
NX3L4051-Q100
HEF4051B-Q100
HEF4052B-Q100
HEF4066BT-Q100
74HC(T)138-Q100
74HC(T)165-Q100
74HC(T)4051-Q100
74HC(T)4052-Q100
74HC(T)4053-Q100
74HC(T)4066-Q100
74HC(T)4851-Q100
74HC(T)4852-Q100
74HC(T)595-Q100
74LVC08-Q100
Function
NXP’s first and second tier technical support teams give Q100 product design-in assistance their highest priority and upon
request AEC-Q100 production part approval process (PPAP) qualification data will be made available. Due to the stricter
qualification requirements of automotive end user applications, a 180 day process change notification (PCN) approval cycle is
applied for Q100 products instead of the 90 day PCN approval cycle for standard types. In the unlikely event of a quality issue,
NXP logic guarantees a 10 day through put time with initial verification within 24 hours for its Q100 portfolio.
12-stage shift-and-store register
LED driver
power logic 8-bit shift register;
open-drain
power logic 8-bit shift register;
open-drain
HEF4894B-Q100
NPIC6C595-Q100
NPIC6C596-Q100
Interface logic
HEF4093BT-Q100
HEF4094BT-Q100
74HC(T)14-Q100
74HC(T)151-Q100
74HC(T)244-Q100
74AHC(T)14-Q100
74AHC(T)1G08-Q100
74AHC1G09-Q100
74AHC(T)1G125-Q100
74AHC(T)244-Q100
74AHC(T)125-Q100
Control Logic
bus buffer/line driver; 3-state
To ensure continued reliability, NXP logic maintains an extensive
reliability monitoring program; the results of which are published
single Schmitt trigger inverter
single Schmitt trigger buffer
half yearly. These QSUM reports are available upon request via
Emile Busink
Quality Assurance
Logic Products / MCU
NXP Semiconductors
Building FB-3.107
Gerstweg 2
Date:
Report:
September 01st, 2012
RNR-31/O2172 (rev. CT)
single 2-input OR gate
Function
your NXP sales representative.
Tel:
Fax:
Email:
int + 31 24 353 2116
int + 31 24 353 2820
emile.busink@nxp.com
quad 2-input NAND Schmitt trigger
8-stage shift-and-store register
hex inverting Schmitt trigger
quad 2-input multiplexer
octal buffer/line driver; 3-state
hex inverting Schmitt trigger
2-input AND gate
octal buffer/line driver; 3-state
6534 AE Nijmegen
The Netherlands
octal bus transceiver; 3-state
Examples of NXP Q100 logic automotive application areas
NXP Semiconductors B.V., Gerstweg 2, 6534 AE Nijmegen, The Netherlands
Tel:+ 31 24 3539111 www.nxp.com, Commercial Register Eindhoven no. 17070621
i/o expansion
Function
Large pin count controllers are expensive, so when possible to reduce the complexity and pin-count of control solutions, input/
output expansion devices such as multiplexer/de-multiplexer devices are used. Figure 2 shows an example of an 8:1 multiplexer
used to sequentially switch analog sensor signals to a single analog to digital pin of a micro-controller.
low-ohmic single-pole octal-throw analog switch
8-channel analog multiplexer/demultiplexer
dual 4-channel analog multiplexer/demultiplexer
quad single-pole single-throw analog switch
3-to-8 line decoder/demultiplexer; inverting
8-bit parallel-in/serial out shift register
8-channel analog multiplexer/demultiplexer
dual 4-channel analog multiplexer/demultiplexer
triple 2-channel analog multiplexer/demultiplexer
16-channel analog multiplexer/demultiplexer
8-channel analog mux/demux; injection-current control
dual 4-channel analog mux/demux; injection-current control
8-bit serial-in, serial or parallel-out shift register; 3-state
quad 2-input AND gate
Tightened manufacturing process controls
Q100 devices are
ꢀmanufactured in TS16949 certified and VDA approved production facilities
ꢀflagged as automotive lots
2-input AND gate with open-drain
bus buffer/line driver; 3-state
bus buffer/line driver; 3-state
quad buffer/line driver; 3-state
Function
ꢀsubjected to additional process flow quality gates and stricter rules for lot dis-positioning and maverick lot handling
This ensures that automotive products
ꢀreceive highest priority
HEF40106B-Q100
74HC(T)00-Q100
74HC(T)04-Q100
74HC(T)08-Q100
74HC(T)132-Q100
74HC(T)1G08-Q100
74LVC1G08-Q100
hex inverting Schmitt trigger
quad 2-input NAND gate
hex inverter
ꢀhave greater traceability for improved quality analysis
ꢀthat become outlier lots, passing a quality gate but outside of the acceptable distribution, are assigned to standard,
non-Q100, types.
quad 2-input AND gate
quad 2-input NAND Schmitt trigger
2-input AND gate
74LVC14-Q100
hex inverting Schmitt trigger with 5 V tolerant input
single 2-input AND gate
Interface logic
With high impedance inputs and low impedance outputs, interface logic such as registered or unregistered buffers and line
drivers are used to interface between low drive outputs of a controller and higher loads of, for example, water pumps and
window motors.
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