BLOCK DIAGRAM IS SHOWN BELOW Wee OUTPUT 14 a wJ--+--++-- sir x x x x 1 | ] l PUT DELAY OUTPUT I ven PP? Lune | surren I i 1 r INPUT GROUND MECHANICAL DETAIL IS SHOWN BELOW 400 <$$+ Pin No. 14 i v ouT @ FLDL-TTL- __- IM c Pin Ho. 1 7 &? 472 a MADE IN BLO LA aa 1304.070 * 250 | ms 60 +! L- 201A. TYP TYP. | ja- S00TYP. 7 o| ae 400 qt _t babe 5 | be 7 & - al 150 *Thru-hole Lead TYP, + 785 | cnt ADS | of : osorye.*|* *Gull Wing Lead | ene [~~ | .020TP - Paro t FF 425 | ee taser. \ | NL O30 TYP.] be *J Lead s| 285 je ee A425 ___.4 4 hsp 285 [ [+010 : . Ln PN eae OIOTYP>| fe Tucked Lead TEST CONDITIONS 1. All measurements are made at 25C. 2, Vee supply voltage is maintained at 5.0V DC. 3, All units are tested using a FAST toggle-type positive input pulse and one FAST TL load at the output. @ 4. Input pulse width used is 100% longer than delay of module under test: spacing between pulses (falling edge to rising edge) is three times the pulse width used. OPERATING SPECIFICATIONS Vee supply voltage: . . 1. ee ee) 6475 tO S25V DC Veo supply current: ConstanOr in ee kee ce . 40mA4 typical Ciorstaniben ee eee ee ete ee 7mA, typical Lagic 1 Input: MPR eck ee ge A ie gg 2V min.; Veco max. GUIBdeep hint ela ee 62 = 20UA MEM, 5.5V = ImA max. Logic 0 Input: Voltage ++ = +4 eee eee ee BY max, Currents sort ee eee es see = GmA max, Logie 1 Vollage out. wee ee 2.7 min. Logic 0 Vollaga cut: 2.1 ek es 5V max, Operating temperature range: .,..., Oto +70C, Storage temperature:. . 2... 2 eee -65 to +125C, Delays increase or decrease approximately 4% for a respective increase or decrease of 5% in supply voltage. PART NUMBER TABLE Suffix Part Number with G (for Gull Wing Lead), J (for J Lead), F (for Thru-hole Lead) or T (for Tucked Lead). Examples: FLDL-TTL-10G (Gull Wing), FLDL-TTL-25J (J Lead), FLOL-TTL-75F (Thru-hole Lead) or FLOL-TTL- 80T (Tucked Lead) @ DELAYS AND TOLERANCES (in ns) PART NO. OUTPUT PART NO. OUTPUT FLDL-TTL-5 541 FLDL-TTL-60 6042 FLDL-TTL-6 641 FLOL-TTL-65 6542.5 FLDL-TTL-7 741 FLDL-TTL-70 7042.5 FLDL-TTL-& 841 FLDL-TTL-75 754+25 FLDL-TTL-9 941 FLDL-TTL-80 8042.5 FLDL-TTL-10 10+1 FLDOL-TTL-85 8543 FLDL-TTL-11 1141 FLDL-TTL-90 90 +3 FLDL-TTL-12 12+1 FLDL-TTL-95 9543 FLDL-TTL-13 134+1 FLOL-TTL-100 10043 FLDL-TTL-14 1441 FLOL-TTL-125 12544 FLDL-TTL-15 1541 FLDL-TTL-150 150 44.5 FLDL-TTL-16 1641 FLDL-TTL-175 | 17545 FLDL-TTL-17 i741 FLDL-TTL-200 | 20046 FLDL-TTL-18 i841 || FLDL-TTL-225 22547 FLDL-TTL-19 i944 FLDL-TTL-250 25048 FLDL-TTL-20 | 20+ 1 FLDL-TTL-275 27549 FLDOL-TTL-21 | 21414 FLDL-TTL-300 , 300410 FLDOL-TTL-22 2241 FLOL-TTL-350 | 350414 FLDL-TTL-23 92341 FLOL-TTL-400 | 400412 FLDL-TTL-24 2441 FLOL-TTL-450 | 450414 FLDOL-TTL-25 2541 FLDOL-TTL-500 | 500415 FLDOL-TTL-30 | 3047.5 || FLDL-TTL-600 | 600418 FLDL-TTL-35 | 35+1.5 FLDL-TTL-700 | 700420 FLDL-TTL-40 | 4041.5 FLOL-TTL-800 | 800422 FLDL-TTL-45 4542 FLDOL-TTL-g00 | 900424 FLDOL-TTL-50 | 5042 FLOL-TTL-1000] 10004 26 FLOL-TTL-55 | 5542 @ Allmodules can be operated with a minimum input pulse width of 100% of full delay and pulse period approaching square wave; since delay accuracies may be somewhat degraded, it is sug- gested that the module be evaluated under the intended specific operating conditions. Special modules can be readily manufac- tured to improve accuracies and/or provide customer specified random delay times for specific applications. Catalog No. C/081594