Yeo BLOCK DIAGRAM IS SHOWN BELOW OUTPUT 5 x x x I | | | i INPUT DELAY OUTPUT DAIVER > LINE ld BUFFER | | GAOUND MECHANICAL DETAIL IS SHOWN BELOW To | Pin No. 8 5 SSFLDL- e 4 r Lo fr? ne oad MADE IN SLO Usa ' | one me a at | at mia ba0 eS TYE pea DIA.T TYP el ae Thru-hole Lead | 375 | | net oig-etig UP. gus 375 +. N _ OG0 TYP] be | 150 + 942 7 Tye TYP *Gull Wing Lead oe wah < ql ja- 020 TYP. | |e ieee iat a F onl = f od | TYP 475 | 295 REF 7 =) + ogo TYP. | jae 5 ) 325 + } .020 -_. | rye ||" ieee | ! ~# ts | .010 235 | bn oj OO TYP) ba. Tucked Lead TEST CONDITIONS 1. All measurements are made at 25C, 2. Vee supply voltage is maintained at 5.0 DC. 3. All units are tested using a Schottky toggle-type positive input pulse and one Schottky load at the output. a4. 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 * Veo BUOY VOITAQE! wk re ee ee 4.75 to 5.25V DC Vee Supply current: LA Constant "O" In 46 eas wee eee + SSRN gical Constant "Yin wo. ee BE oad aaitcanly! Logic 1 Input: Voltage ied Goatees eet ee mate .. 2V ming Veo max. LGN 5, erate Me ns a aoe a oa ee . 28.7 = 20uA max. 5.57 = 1mA max. Legic 0 Input: Vollage 2... we a peiepie ae Gah BV rriax. Comrent aes Sey ae Pee -.6rnA max. Logic 1 Voltage out: ..... Rae se ear 2.7 min, Logic 0 Voltage out: ~...,....... -3 max, Operating temperature range: 2... ... Oto 70C Storage temperature: ..... 2 eee . 55 to +125C, * Delays increase or decrease approximately 2% for a respective increase or decrease of 5% in supply vallage. PART NUMBER TABLE *Sutfix Part Number with G (for Gull Wing Lead), J (for J Lead), F (for Thru-hole Lead) or T (for Tucked Lead). Examples: SSFLDL-TTL-10G (Gull Wing}, SSFLDL-TTL-25J (J Lead), SSFLDL-TTL-70F (Thru-hole Lead) or SSFLDL- TTL-15T (Tucked Lead). [# DELAYS AND TOLERANCES (inns) id PART NO. OUTPUT PART NO. OUTPUT SSFLDL-TTL-5 5+.5 || SSFLDOL-TTL-45 45 +2 SSFLDL-TTL-6 6+.5 || SSFLOL-TTL-50 50 +2 SSFLDOL-TTL-7 7+.5 || SSFLDOL-TTL-55 55 +2 SSFLDOL-TTL-8 B+.5 || SSFLOL-TTL-60 60 +2 SSFLDL-TTL-9 9+.5 || SSFLDOL-TTL-65 65 +2.5 SSFLDL-TTL-10 10+.5 || SSFLOL-TTL-70 70 +2.5 SSFLDL-TTL-11 114.75 || SSFLDL-TTL-75 75 2.5 SSFLDL-TTL-12 12 +.75 || SSFLDL-TTL-80 80 42.5 SSFLDL-TTL-13 13 +.75 || SSFLDL-TTL-85 85 +4 SSFLDOL-TTL-14 14 +.75 |] SSFLDL-TTL-90 90 +3 SSFLDL-TTL-15 15 #.75 || SSFLDL-TTL-95 95 +3 SSFLOL-TTL-16 16 #.75 || SSFLDL-TTL-100 100 +3 SSFLOL-TTL-17 17 #.75 || SSFLDOL-TTL-125 125 +4 SSFLOL-TTL-18 18.75 || SSFLDOL-TTL-150 150 +4.5 SSFLDL-TTL-19 194.75 || SSFLDL-TTL-175 175 +5 SSFLOL-TTL-20 20 4.75 || SSFLDL-TTL-200 200 +6 SSFLOL-TTL-21 21 +1 SSFLOL-TTL-225 225 +7 SSFLBOL-TTL-22 22 +1 SSFLOL-TTL-250 250 +8 SSFLBL-TTL-23 23 +1 SSFLDL-TTL-275 275 29 SSFLBOL-TTL-24 2421 SoOFLDL-TTL-300 300 +10 SSFLBOL-TTL-25 25 +1 SoFLDL-TTL-350 350 +11 SSFLDOL-TTL-30 30 21.6 |) SSFLDL-TTL-400 400 212 SSFLOL-TTL-35 35 21.5 || SSFLDL-TTL-450 450 +14 SSFLDOL-TTL-40 40 +1.5 || SSFLDL-TTL-500 500 +15 @ All modules 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 suggested that the module be evaluated under the intended specific operating conditions. Special modules can be readily manufactured toimprove accuracies and/or provide customer specified random delay times for specific applications. Catalog No. G/121592