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3D3323

3D3323

  • 厂商:

    DATADELAY

  • 封装:

  • 描述:

    3D3323 - MONOLITHIC TRIPLE FIXED DELAY LINE - Data Delay Devices, Inc.

  • 数据手册
  • 价格&库存
3D3323 数据手册
3D3323 MONOLITHIC TRIPLE FIXED DELAY LINE (SERIES 3D3323) FEATURES • • • • • • • • • • • • All-silicon, low-power CMOS technology Vapor phase, IR and wave solderable Auto-insertable (DIP pkg.) Low ground bounce noise Leading- and trailing-edge accuracy Delay range: 10 through 6000ns Delay tolerance: 2% or 1.0ns Temperature stability: ±3% typ (-40C to 85C) Vdd stability: ±1% typical (3.0V to 3.6V) Minimum input pulse w idth: 20% of total delay 14-pin DIP available as drop-in replacement for hybrid delay lines I1 I2 I3 GND 1 2 3 4 8 7 6 5 PACKAGES VDD O1 O2 O3 I1 N/C I2 N/C I3 N/C GND 1 2 3 4 5 6 7 14 13 12 11 10 9 8 VDD N/C O1 N/C O2 N/C O3 3D3323M DIP 3D3323H Gull-W ing I1 I2 I3 GND 1 2 3 4 8 7 6 5 VDD O1 O2 O3 3D3323Z SOIC (150 Mil) 3D3323 DIP 3D3323G Gull-W ing 3D3323K Unused pins removed For mechanical dimensions, click here. For package marking details, click here. FUNCTIONAL DESCRIPTION The 3D3323 Triple Delay Line product family consists of fixed-delay CMOS integrated circuits. Each package contains three matched, independent delay lines. Delay values can range from 10ns through 6000ns. The input is reproduced at the output without inversion, shifted in time as per the user-specified dash number. The 3D3323 is CMOS-compatible and features both rising- and falling-edge accuracy. PIN DESCRIPTIONS I1 I2 I3 O1 O2 O3 VDD GND N/C Delay Line 1 Input Delay Line 2 Input Delay Line 3 Input Delay Line 1 Output Delay Line 2 Output Delay Line 3 Output +3.3 Volts Ground No Connection The all-CMOS 3D3323 integrated circuit has been designed as a reliable, economic alternative to hybrid fixed delay lines. It is offered in a standard 8-pin auto-insertable DIP and a space saving surface mount 8-pin SOIC. TABLE 1: PART NUMBER SPECIFICATIONS DIP-8 3D3323M 3D3323H -10 -15 -20 -25 -30 -40 -50 -100 -200 -500 -1000 -6000 NOTE: PART NUMBER SOIC-8 DIP-14 3D3323Z 3D3323 3D3323G -10 -10 -15 -15 -20 -20 -25 -25 -30 -30 -40 -40 -50 -50 -100 -100 -200 -200 -500 -500 -1000 -1000 -6000 -6000 DIP-14 3D3323K -10 -15 -20 -25 -30 -40 -50 -100 -200 -500 -1000 -6000 DELAY PER LINE (ns) 10 ± 1.0 15 ± 1.0 20 ± 1.0 25 ± 1.0 30 ± 1.0 40 ± 1.0 50 ± 1.0 100 ± 2.0 200 ± 4.0 500 ± 10.0 1000 ± 20 6000 ±120 Max Operating Frequency 33.3 MHz 22.2 MHz 16.7 MHz 13.3 MHz 11.1 MHz 8.33 MHz 6.67 MHz 3.33 MHz 1.67 MHz 0.67 MHz 0.33 MHz 0.05 MHz INPUT RESTRICTIONS Absolute Max Min Operating Oper. Freq. Pulse Width 100.0 MHz 100.0 MHz 100.0 MHz 83.3 MHz 71.4 MHz 62.5 MHz 50.0 MHz 25.0 MHz 12.5 MHz 5.00 MHz 2.50 MHz 0.42 MHz 15.0 ns 22.5 ns 30.0 ns 37.5 ns 45.0 ns 60.0 ns 75.0 ns 150.0 ns 300.0 ns 750.0 ns 1500.0 ns 9000.0 ns Absolute Min Oper. P.W. 5.0 ns 5.0 ns 5.0 ns 6.0 ns 7.0 ns 8.0 ns 10.0 ns 20.0 ns 40.0 ns 100.0 ns 200.0 ns 1200.0 ns Any delay between 10 and 6000 ns not shown is also available. 2006 Data Delay Devices Doc #06017 5/10/2006 DATA DELAY DEVICES, INC. 3 Mt. Prospect Ave. Clifton, NJ 07013 1 3D3323 APPLICATION NOTES OPERATIONAL DESCRIPTION The 3D3323 triple delay line architecture is shown in Figure 1. The individual delay lines are composed of a number of delay cells connected in series. Each delay line produces at its output a replica of the signal present at its input, shifted in time. The delay lines are matched and share the same compensation signals, which minimizes line-to-line delay deviations over temperature and supply voltage variations. To guarantee the Table 1 delay accuracy for input frequencies higher than the Maximum Operating Frequency, the 3D3323 must be tested at the user operating frequency. Therefore, to facilitate production and device identification, the part number w ill include a custom reference designator identifying the intended frequency of operation. The programmed delay accuracy of the device is guaranteed, therefore, only at the user specified input frequency. Small input frequency variation about the selected frequency will only marginally impact the programmed delay accuracy, if at all. Nevertheless, it is strongly recommended that the engineering staff at DATA DELAY DEVICES be consulted. INPUT SIGNAL CHARACTERISTICS The Frequency and/or Pulse Width (high or low) of operation may adversely impact the specified delay accuracy of the particular device. The reasons for the dependency of the output delay accuracy on the input signal characteristics are varied and complex. Therefore a Maximum and an Absolute Maximum operating input frequency and a Minimum and an Absolute Minimum operating pulse width have been specified. OPERATING PULSE WIDTH The Absolute Minimum Operating Pulse Width (high or low) specification, tabulated in Table 1, determines the smallest Pulse Width of the delay line input signal that can be reproduced, shifted in time at the device output, with acceptable pulse width distortion. The Minimum Operating Pulse Width (high or low) specification determines the smallest Pulse Width of the delay line input signal for which the output delay accuracy tabulated in Table 1 is guaranteed. To guarantee the Table 1 delay accuracy for input pulse width smaller than the Minimum Operating Pulse Width, the 3D3323 must be tested at the user operating pulse width. Therefore, to facilitate production and device identification, the part number w ill include a O1 O2 O3 OPERATING FREQUENCY The Absolute Maximum Operating Frequency specification, tabulated in Table 1, determines the highest frequency of the delay line input signal that can be reproduced, shifted in time at the device output, with acceptable duty cycle distortion. The Maximum Operating Frequency specification determines the highest frequency of the delay line input signal for which the output delay accuracy is guaranteed. VDD Temp & VDD Compensatio Dela y Dela y Dela y GND I1 I2 I3 Figure 1: 3D3323 Functional Diagram Doc #06017 5/10/2006 DATA DELAY DEVICES, INC. Tel: 973-773-2299 Fax: 973-773-9672 http://www.datadelay.com 2 3D3323 APPLICATION NOTES (CONT’D) custom reference designator identifying the intended frequency and duty cycle of operation. The programmed delay accuracy of the device is guaranteed, therefore, only for the user specified input characteristics. Small input pulse width variation about the selected pulse width will only marginally impact the programmed delay accuracy, if at all. Nevertheless, it is strongly recommended that the engineering staff at DATA DELAY DEVICES be consulted. circuitry to minimize the delay variations induced by fluctuations in power supply and/or temperature. The thermal coefficient is reduced to 300 PPM/C, which is equivalent to a variation , over the -40C to 85C operating range, of ±3% from the room-temperature delay settings and/or 1.0ns, whichever is greater. The pow er supply coefficient is reduced, over the 3.0V to 3.6V operating range, to ±1% of the delay settings at the nominal 3.3VDC power supply and/or 2.0ns, whichever is greater. It is essential that the pow er supply pin be adequately bypassed and filtered. In addition, the pow er bus should be of as low an impedance construction as possible. Pow er planes are preferred. POWER SUPPLY AND TEMPERATURE CONSIDERATIONS The delay of CMOS integrated circuits is strongly dependent on power supply and temperature. The monolithic 3D3323 programmable delay line utilizes novel and innovative compensation DEVICE SPECIFICATIONS TABLE 2: ABSOLUTE MAXIMUM RATINGS PARAMETER DC Supply Voltage Input Pin Voltage Input Pin Current Storage Temperature Lead Temperature SYMBOL VDD VIN IIN TSTRG TLEAD MIN -0.3 -0.3 -1.0 -55 MAX 7.0 VDD+0.3 1.0 150 300 UNITS V V mA C C NOTES 25C 10 sec TABLE 3: DC ELECTRICAL CHARACTERISTICS (-40C to 85C, 3.0V to 3.6V) PARAMETER Static Supply Current* High Level Input Voltage Low Level Input Voltage High Level Input Current Low Level Input Current High Level Output Current Low Level Output Current Output Rise & Fall Time SYMBOL IDD VIH VIL IIH IIL IOH IOL TR & TF MIN 2.0 -1 -1 0.8 1 1 -4.0 MAX 5 UNITS mA V V µA µA mA mA 2 ns NOTES 4.0 VIH = VDD VIL = 0V VDD = 4.75V VOH = 2.4V VDD = 4.75V VOL = 0.4V CLD = 5 pf *IDD(Dynamic) = 3 * CLD * VDD * F where: CLD = Average capacitance load/line (pf) F = Input frequency (GHz) Input Capacitance = 10 pf typical Output Load Capacitance (CLD) = 25 pf max Doc #06017 5/10/2006 DATA DELAY DEVICES, INC. 3 Mt. Prospect Ave. Clifton, NJ 07013 3 3D3323 SILICON DELAY LINE AUTOMATED TESTING TEST CONDITIONS INPUT: Ambient Temperature: 25oC ± 3oC Supply Voltage (Vcc): 3.3V ± 0.1V Input Pulse: High = 3.0V ± 0.1V Low = 0.0V ± 0.1V Source Impedance: 50Ω Max. Rise/Fall Time: 3.0 ns Max. (measured between 0.6V and 2.4V ) Pulse Width: PWIN = 1.25 x Total Delay Period: PERIN = 2.5 x Total Delay OUTPUT: Rload: Cload: Threshold: 10KΩ ± 10% 5pf ± 10% 1.5V (Rising & Falling) Dev ice Under Test 10KΩ 5pf Digital Scope 470Ω NOTE: The above conditions are for test only and do not in any way restrict the operation of the device. COMPUTER SYSTEM PRINTER REF PULSE GENERATOR OUT TRIG IN1 DEVICE UNDER TEST (DUT) IN2 IN3 OUT1 OUT2 OUT3 IN TRIG DIGITAL SCOPE/ TIME INTERVAL COUNTER Figure 2: T est Setup PERIN PW IN tRISE INPUT SIGNAL 2.4V 1.5V 0.6V tFALL VIH 2.4V 1.5V 0.6V VIL tPHL tPLH OUTPUT SIGNAL 1.5V VOH 1.5V VOL Figure 3: T iming Diagram Doc #06017 5/10/2006 DATA DELAY DEVICES, INC. Tel: 973-773-2299 Fax: 973-773-9672 http://www.datadelay.com 4
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