硅计时电路的常见问题-Silicon Timed Circu
abstract: the technical brief answers frequently asked questions (faqs) regarding dallas semiconductor silicon timed circuits (stcs), also known as delay lines. this brief discusses both laser-trimmed (older) as well as eeprom-trimmed (newer) devices. topics include, decoupling, comparisons to hybrid devices, how delay lines work, replacing older (ds10xx-series) with newer (ds11xx) series delay lines, temperature compensation, evaluating parametric specifications, as well as the availability of custom devices.
do silicon delay lines require decoupling?silicon timed circuits (stcs) contain noise-sensitive voltage detection circuits and fast rise-time output circuits so decoupling is required. a 0.01µf to 0.1µf low-inductance capacitor should be used in close proximity to the delay line to assure the highest performance. what are the advantages of stcs over hybrid devices?stcs offer advantages in design, packaging, and manufacturing over hybrids. specifically, stcs offer the increased reliability of silicon and greater accuracy on both rising and falling edges. unlike ttl devices, stcs are cmos devices and offer true rail-to-rail output levels, which help minimize system standby power requirements. using standard dip, so, µsop, and tssop packaging, stcs are well-suited to standard ic handling, including reflow soldering.
what is the basic operation of an stc?presently, two architectures are used to implement delay lines. the first uses a ramp generator and associated logic to generate the delay period. the input signal triggers a ramp generator that is compared to a laser-adjusted voltage reference. when the ramp regenerator reaches the preset voltage level, the delay period is determined. the second architecture uses a chain of temperature- and voltage-compensated voltage controlled delay lines (vcdl) to develop the total delay period. we are in the process of converting all delay lines from the first architecture to the second, much improved architecture. the ds10xx series of delay lines are made up of the old architecture. the ds11xx will gradually replace the older series with pin-for-pin replacements in most cases. the new architecture also permits us to put the delay lines in smaller packages such as the 8-pin µsop (micromax) which is half the size of the 8-pin so package. we have already introduced the ds1100 series as replacements for the ds1000 series and the ds1135 series as replacements for the ds1035/ds1033 series. the ds1110 series is a replacement for the ds1010 series. how do i know which ds1100 series to use as a replacement for the ds1000 series?the following table can be used to cross-reference the old part numbers to the new. some older packages such as gullwing and sheared-lead packages will not have drop-in but functional replacements. the ds1000m-500 and ds1000z-500 will continue to be available.
obsolete part number package type number of pins suggested replacement
part number package type number of pins replaces function replaces package
ds1000-xxx dip 14-pin ds1100m-xxx dip 8-pin yes no
ds1000m-xxx dip 8-pin ds1100m-xxx dip 8-pin yes yes
ds1000g-xxx gullwing 14-pin ds1100z-xxx so 8-pin yes no
ds1000h-xxx gullwing 8-pin ds1100z-xxx so 8-pin yes no
ds1000k-xxx n/c leads sheared 14-pin ds1100m-xxx dip 8-pin yes no
ds1000s-xxx so 16-pin ds1100z-xxx so 8-pin yes no
ds1000z-xxx so 8-pin ds1100z-xxx so 8-pin yes yes
ds1000-xxx ind dip 14-pin ds1100z-xxx dip 8-pin yes no
ds1000m-xxx ind dip 8-pin ds1100m-xxx dip 8-pin yes yes
ds1000s-xxx ind so 16-pin ds1100z-xxx so 8-pin yes no
ds1000z-xxx ind so 8-pin ds1100z-xxx so 8-pin yes yes
notes: gullwing, sheared lead and 16-pin so will not be available in the ds1100 family. ds1100 family is qualified for both commercial and industrial temperature ranges. how do i know which ds1135 series to use as a replacement for the ds1035 series?devices affected (all parts are direct replacements) obsolete part number delay length (ns) package replacement part number
ds1035m-6 6 8-pin dip ds1135m-6
ds1035m-8 8 8-pin dip ds1135m-8
ds1035m-10 10 8-pin dip ds1135m-10
ds1035m-12 12 8-pin dip ds1135m-12
ds1035m-15 15 8-pin dip ds1135m-15
ds1035m-20 20 8-pin dip ds1135m-20
ds1035m-25 25 8-pin dip ds1135m-25
ds1035m-30 30 8-pin dip ds1135m-30
ds1035z-6/t&r 6 8-pin so t&r ds1135z-6 t&r
ds1035z-8/t&r 8 8-pin so t&r ds1135z-8 t&r
ds1035z-10/t&r 10 8-pin so t&r ds1135z-10/t&r
ds1035z-12/t&r 12 8-pin so t&r ds1135z-12/t&r
ds1035z-15/t&r 15 8-pin so t&r ds1135z-15/t&r
ds1035z-20/t&r 20 8-pin so t&r ds1135z-20/t&r
ds1035z-25/t&r 25 8-pin so t&r ds1135z-25/t&r
ds1035z-30/t&r 30 8-pin so t&r ds1135z-30/t&r
ds1035z-6 6 8-pin so ds1135z-6
ds1035z-8 8 8-pin so ds1135z-8
ds1035z-10 10 8-pin so ds1135z-10
ds1035z-12 12 8-pin so ds1135z-12
ds1035z-15 15 8-pin so ds1135z-15
ds1035z-20 20 8-pin so ds1135z-20
ds1035z-25 25 8-pin so ds1135z-25
ds1035z-30 30 8-pin so ds1135z-30
ds1035c-601 6 8-pin so t&r ds1135z-6 /t&r
ds1035c-602 8 8-pin so t&r ds1135z-8/t&r
ds1035c-701 8 8-pin so t&r ds1135z-8/t&r
ds1035c-702 6 8-pin so t&r ds1135z-6/t&r
ds1035z-901 20 8-pin so t&r ds1135z-20/t&r
ds1135 is qualified over the commercial as well as the industrial temperature range. no separate industrial part number is required. what about the ds1033? i don't see a ds1133 replacement.the ds1135l series replaces the ds1033 series. not all packages have drop-in replacements. refer to the table below to select either a functional or drop-in replacement.
devices affected ordering part number delay (ns) package replacement part no. functional replacement
ds1033c-803 15 8-pin so ds1135lz-15
ds1033c-803/t&r 15 8-pin so/t&r ds1135lz-15/t&r
ds1033c-902 8 8-pin so not obsolete
ds1033c-902/t&r 8 8-pin so/t&r not obsolete
ds1033m-10 10 8-pin dip obsolete ds1135lz-10
ds1033m-12 12 8-pin dip obsolete ds1135lz-12
ds1033m-15 15 8-pin dip obsolete ds1135lz-15
ds1033m-20 20 8-pin dip obsolete ds1035lz-20
ds1033m-25 25 8-pin dip obsolete ds1135lz-25
ds1033m-30 30 8-pin dip obsolete ds1135lz-30
ds1033m-8 8 8-pin dip obsolete ds1033z-8
ds1033z/t&r 20 8-pin so/t&r ds1135lz-20/t&r
ds1033z-10 10 8-pin so ds1135lz-10
ds1033z-10/t&r 10 8-pin so/t&r ds1135lz-10/t&r
ds1033z-12 12 8-pin so ds1135lz-12
ds1033z-12/t&r 12 8-pin so/t&r ds1135lz-12/t&r
ds1033z-15 15 8-pin so ds1135lz-15
ds1033z-15/t&r 15 8-pin so/t&r ds1135lz-15/t&r
ds1033z-20 20 8-pin so ds1135lz-20
ds1033z-25 25 8-pin so ds1135lz-25
ds1033z-25/t&r 25 8-pin so/t&r ds1135lz-25/t&r
ds1033z-25/t&r/ 25 8-pin so/t&r ds1135lz-25/t&r
ds1033z-30 30 8-pin so ds1135lz-30
ds1033z-8 8 8-pin so not obsolete
ds1033z-8/t&r/ 8 8-pin so/t&r not obsolete
ds1033z-8/t&r 8 8-pin so/t&r not obsolete
ds1135l is qualified over the commercial as well as the industrial temperature range. no separate industrial part number is required. how do i correlate time measurements when evaluating delay lines?fast (3ns) rise/fall input pulses with 0v to 3v logic levels, low inductance decoupling techniques using 0.01µf to 0.1µf capacitors, low capacitance measurement probes placed as close as possible to the package, and relaxed timing (500ns pulse width, 1µs period) will aid in timing correlation when measured at 1.5v levels. can i get any delay time i need from dallas semiconductor?yes, delay lines can be customized to meet your design timing requirements. we can even supply sample quantities in ceramic packages for evaluation. do stcs need to be compensated for temperature like hybrids?on stcs, temperature compensation is implemented by balancing the positive temperature coefficient of the cmos logic against the negative coefficient elements in the device. these two effects tend to cancel each other, minimizing the effects of temperature. rather than measuring the coefficients in parts per million, silicon delay lines are measured as the maximum shift from nominal, anywhere along the rated temperature range. can i add or daisy-chain several devices to achieve a longer delay?daisy-chaining silicon delay lines presents a problem that is increased with the number of packages in a chain. a voltage-chopped stabilization circuit in the design causes a slight time jitter (well within specifications and almost transparent to the circuit) on the output. when the packages are daisy-chained, the jitter is cumulative and degrades the accuracy of downline stages. if four to six packages are chained in a series, the results are generally unacceptable. how do stcs differ from hybrid devices?a typical hybrid consists of a hex inverter die, a pc board acting as a ground plane, plus chip capacitors, a terminating resistor, and a multiple tap ferrite inductor. timing is determined by coil winding and/or capacitor selection or trimming. the dallas semiconductor stc design uses a laser- or eeprom-optimized die bonded to a conventional lead frame, which is then molded into an auto-insertable dip, or so, µsop, or tssop package. can an stc be used to time-shift a square wave?yes, it's a good solution. just be certain that the minimum input period specification is met. why is the static (idle) current so high?unlike typical cmos devices, which offer minimal static current, most dallas semiconductor delay lines draw almost as much current when idling as when active. this is because the constant-current sources in the timing circuits are always on. if they were turned off in the absence of an input pulse, the time required to establish a stable reference current when the next pulse arrives would impair the accuracy of the device. how does laser adjustment trim the delay?under the direction of a computer-controlled tester with 20-picosecond resolution, the proper time delay of the device is set by two means. in the first, directing a laser to open polysilicon fuses, removing unnecessary current sources and capacitors in ramp generators in the timing circuit. this technique is used on earlier generations of the parts and is gradually being phased out. newer architecture parts use eeprom to engage positive and negative temperature coefficient timing elements in the delay circuitry setting the delay time and balancing the components in such a manner that parametric changes over temperature null each other out. what about daisy-chaining the stages of a parallel stc?with the exception of the fast taps on the ds1007, some jitter will be added with each stage when added in a series. this will not be a problem in most cases. users report that daisy-chaining this way is a convenient method of implementing non-standard delay times
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do silicon delay lines require decoupling?silicon timed circuits (stcs) contain noise-sensitive voltage detection circuits and fast rise-time output circuits so decoupling is required. a 0.01µf to 0.1µf low-inductance capacitor should be used in close proximity to the delay line to assure the highest performance. what are the advantages of stcs over hybrid devices?stcs offer advantages in design, packaging, and manufacturing over hybrids. specifically, stcs offer the increased reliability of silicon and greater accuracy on both rising and falling edges. unlike ttl devices, stcs are cmos devices and offer true rail-to-rail output levels, which help minimize system standby power requirements. using standard dip, so, µsop, and tssop packaging, stcs are well-suited to standard ic handling, including reflow soldering.
what is the basic operation of an stc?presently, two architectures are used to implement delay lines. the first uses a ramp generator and associated logic to generate the delay period. the input signal triggers a ramp generator that is compared to a laser-adjusted voltage reference. when the ramp regenerator reaches the preset voltage level, the delay period is determined. the second architecture uses a chain of temperature- and voltage-compensated voltage controlled delay lines (vcdl) to develop the total delay period. we are in the process of converting all delay lines from the first architecture to the second, much improved architecture. the ds10xx series of delay lines are made up of the old architecture. the ds11xx will gradually replace the older series with pin-for-pin replacements in most cases. the new architecture also permits us to put the delay lines in smaller packages such as the 8-pin µsop (micromax) which is half the size of the 8-pin so package. we have already introduced the ds1100 series as replacements for the ds1000 series and the ds1135 series as replacements for the ds1035/ds1033 series. the ds1110 series is a replacement for the ds1010 series. how do i know which ds1100 series to use as a replacement for the ds1000 series?the following table can be used to cross-reference the old part numbers to the new. some older packages such as gullwing and sheared-lead packages will not have drop-in but functional replacements. the ds1000m-500 and ds1000z-500 will continue to be available.
obsolete part number package type number of pins suggested replacement
part number package type number of pins replaces function replaces package
ds1000-xxx dip 14-pin ds1100m-xxx dip 8-pin yes no
ds1000m-xxx dip 8-pin ds1100m-xxx dip 8-pin yes yes
ds1000g-xxx gullwing 14-pin ds1100z-xxx so 8-pin yes no
ds1000h-xxx gullwing 8-pin ds1100z-xxx so 8-pin yes no
ds1000k-xxx n/c leads sheared 14-pin ds1100m-xxx dip 8-pin yes no
ds1000s-xxx so 16-pin ds1100z-xxx so 8-pin yes no
ds1000z-xxx so 8-pin ds1100z-xxx so 8-pin yes yes
ds1000-xxx ind dip 14-pin ds1100z-xxx dip 8-pin yes no
ds1000m-xxx ind dip 8-pin ds1100m-xxx dip 8-pin yes yes
ds1000s-xxx ind so 16-pin ds1100z-xxx so 8-pin yes no
ds1000z-xxx ind so 8-pin ds1100z-xxx so 8-pin yes yes
notes: gullwing, sheared lead and 16-pin so will not be available in the ds1100 family. ds1100 family is qualified for both commercial and industrial temperature ranges. how do i know which ds1135 series to use as a replacement for the ds1035 series?devices affected (all parts are direct replacements) obsolete part number delay length (ns) package replacement part number
ds1035m-6 6 8-pin dip ds1135m-6
ds1035m-8 8 8-pin dip ds1135m-8
ds1035m-10 10 8-pin dip ds1135m-10
ds1035m-12 12 8-pin dip ds1135m-12
ds1035m-15 15 8-pin dip ds1135m-15
ds1035m-20 20 8-pin dip ds1135m-20
ds1035m-25 25 8-pin dip ds1135m-25
ds1035m-30 30 8-pin dip ds1135m-30
ds1035z-6/t&r 6 8-pin so t&r ds1135z-6 t&r
ds1035z-8/t&r 8 8-pin so t&r ds1135z-8 t&r
ds1035z-10/t&r 10 8-pin so t&r ds1135z-10/t&r
ds1035z-12/t&r 12 8-pin so t&r ds1135z-12/t&r
ds1035z-15/t&r 15 8-pin so t&r ds1135z-15/t&r
ds1035z-20/t&r 20 8-pin so t&r ds1135z-20/t&r
ds1035z-25/t&r 25 8-pin so t&r ds1135z-25/t&r
ds1035z-30/t&r 30 8-pin so t&r ds1135z-30/t&r
ds1035z-6 6 8-pin so ds1135z-6
ds1035z-8 8 8-pin so ds1135z-8
ds1035z-10 10 8-pin so ds1135z-10
ds1035z-12 12 8-pin so ds1135z-12
ds1035z-15 15 8-pin so ds1135z-15
ds1035z-20 20 8-pin so ds1135z-20
ds1035z-25 25 8-pin so ds1135z-25
ds1035z-30 30 8-pin so ds1135z-30
ds1035c-601 6 8-pin so t&r ds1135z-6 /t&r
ds1035c-602 8 8-pin so t&r ds1135z-8/t&r
ds1035c-701 8 8-pin so t&r ds1135z-8/t&r
ds1035c-702 6 8-pin so t&r ds1135z-6/t&r
ds1035z-901 20 8-pin so t&r ds1135z-20/t&r
ds1135 is qualified over the commercial as well as the industrial temperature range. no separate industrial part number is required. what about the ds1033? i don't see a ds1133 replacement.the ds1135l series replaces the ds1033 series. not all packages have drop-in replacements. refer to the table below to select either a functional or drop-in replacement.
devices affected ordering part number delay (ns) package replacement part no. functional replacement
ds1033c-803 15 8-pin so ds1135lz-15
ds1033c-803/t&r 15 8-pin so/t&r ds1135lz-15/t&r
ds1033c-902 8 8-pin so not obsolete
ds1033c-902/t&r 8 8-pin so/t&r not obsolete
ds1033m-10 10 8-pin dip obsolete ds1135lz-10
ds1033m-12 12 8-pin dip obsolete ds1135lz-12
ds1033m-15 15 8-pin dip obsolete ds1135lz-15
ds1033m-20 20 8-pin dip obsolete ds1035lz-20
ds1033m-25 25 8-pin dip obsolete ds1135lz-25
ds1033m-30 30 8-pin dip obsolete ds1135lz-30
ds1033m-8 8 8-pin dip obsolete ds1033z-8
ds1033z/t&r 20 8-pin so/t&r ds1135lz-20/t&r
ds1033z-10 10 8-pin so ds1135lz-10
ds1033z-10/t&r 10 8-pin so/t&r ds1135lz-10/t&r
ds1033z-12 12 8-pin so ds1135lz-12
ds1033z-12/t&r 12 8-pin so/t&r ds1135lz-12/t&r
ds1033z-15 15 8-pin so ds1135lz-15
ds1033z-15/t&r 15 8-pin so/t&r ds1135lz-15/t&r
ds1033z-20 20 8-pin so ds1135lz-20
ds1033z-25 25 8-pin so ds1135lz-25
ds1033z-25/t&r 25 8-pin so/t&r ds1135lz-25/t&r
ds1033z-25/t&r/ 25 8-pin so/t&r ds1135lz-25/t&r
ds1033z-30 30 8-pin so ds1135lz-30
ds1033z-8 8 8-pin so not obsolete
ds1033z-8/t&r/ 8 8-pin so/t&r not obsolete
ds1033z-8/t&r 8 8-pin so/t&r not obsolete
ds1135l is qualified over the commercial as well as the industrial temperature range. no separate industrial part number is required. how do i correlate time measurements when evaluating delay lines?fast (3ns) rise/fall input pulses with 0v to 3v logic levels, low inductance decoupling techniques using 0.01µf to 0.1µf capacitors, low capacitance measurement probes placed as close as possible to the package, and relaxed timing (500ns pulse width, 1µs period) will aid in timing correlation when measured at 1.5v levels. can i get any delay time i need from dallas semiconductor?yes, delay lines can be customized to meet your design timing requirements. we can even supply sample quantities in ceramic packages for evaluation. do stcs need to be compensated for temperature like hybrids?on stcs, temperature compensation is implemented by balancing the positive temperature coefficient of the cmos logic against the negative coefficient elements in the device. these two effects tend to cancel each other, minimizing the effects of temperature. rather than measuring the coefficients in parts per million, silicon delay lines are measured as the maximum shift from nominal, anywhere along the rated temperature range. can i add or daisy-chain several devices to achieve a longer delay?daisy-chaining silicon delay lines presents a problem that is increased with the number of packages in a chain. a voltage-chopped stabilization circuit in the design causes a slight time jitter (well within specifications and almost transparent to the circuit) on the output. when the packages are daisy-chained, the jitter is cumulative and degrades the accuracy of downline stages. if four to six packages are chained in a series, the results are generally unacceptable. how do stcs differ from hybrid devices?a typical hybrid consists of a hex inverter die, a pc board acting as a ground plane, plus chip capacitors, a terminating resistor, and a multiple tap ferrite inductor. timing is determined by coil winding and/or capacitor selection or trimming. the dallas semiconductor stc design uses a laser- or eeprom-optimized die bonded to a conventional lead frame, which is then molded into an auto-insertable dip, or so, µsop, or tssop package. can an stc be used to time-shift a square wave?yes, it's a good solution. just be certain that the minimum input period specification is met. why is the static (idle) current so high?unlike typical cmos devices, which offer minimal static current, most dallas semiconductor delay lines draw almost as much current when idling as when active. this is because the constant-current sources in the timing circuits are always on. if they were turned off in the absence of an input pulse, the time required to establish a stable reference current when the next pulse arrives would impair the accuracy of the device. how does laser adjustment trim the delay?under the direction of a computer-controlled tester with 20-picosecond resolution, the proper time delay of the device is set by two means. in the first, directing a laser to open polysilicon fuses, removing unnecessary current sources and capacitors in ramp generators in the timing circuit. this technique is used on earlier generations of the parts and is gradually being phased out. newer architecture parts use eeprom to engage positive and negative temperature coefficient timing elements in the delay circuitry setting the delay time and balancing the components in such a manner that parametric changes over temperature null each other out. what about daisy-chaining the stages of a parallel stc?with the exception of the fast taps on the ds1007, some jitter will be added with each stage when added in a series. this will not be a problem in most cases. users report that daisy-chaining this way is a convenient method of implementing non-standard delay times
基于一个把复制交易平台带到虚拟货币市场的CCovesting平台介绍
小米已确定造车战略,或由雷军带领
清华微电子所联手厦门:打造成研发一体的项目,共同研发新型存储器
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深度学习和机器学习深度的不同之处 浅谈深度学习的训练和调参
硅计时电路的常见问题-Silicon Timed Circu
人工智能助力智慧城市高速发展
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无线充电小型电极装置助力截肢者变得更灵活
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洲明携手华为数字站点打造“多元一体智慧站点”联合方案
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研华发布EKI-8500G工业级TSN以太网交换机
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中兴通讯为扭转亏损再售子公司