BLOCK DIAGRAM IS SHOWN BELOW Vee ouTPUT! OUTPUT? OUTPUT? 14 12 10 a , 1 I x Xx x x \ | I ] | BUFFERED| BUFFERED] |aurreneD| | I DELAY DELAY DELAY ' 1 t I l == a INPUT, Input, INPUT, GROUND MECHANICAL DETAIL IS SHOWN BELOW B00 Pin Mo, 14 12 10 a QUT, OUT, OUT, @ MFLDL-TTL-___ | IN; INg IN c Pin No. 1 3 5 ) & azo C T eat 165 4.010 250 _ 0601 Ly 020014 TYP. 7 iTYP +l je 200 TY, _ i og 9 | o a ; 400 - + }*a00 : el = he a 29 an reo *Thru-hole Lead = "" y 285 aleoio ae eto i sad 267 mt osorve. fe *Gull Wing Lead | 285 [y- O70 . ail TYP. 100 TYP | 445 AEF a30TYP.+| bey aces 4 28S = 120-3, leceanna _ iferve, ' 3 | 0 0 ro t 435 ab po 38 fe. | + | ' ; (Lo o fo i) O20 TYP fe *Tucked Lead TEST CONDITIONS 1. All measurements are made at 25C. 2. Veo supply vollage 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 undertest spacing between pulses (falling edge to rising edge) is three times the pulse width used. OPERATING SPECIFICATIONS Vcc supply voltage: . 2... 2... eee . 4.75 to 5.25V DG Vee supply current: Constant O"in ..... eau aae es + GSMA typical Constant ting ces oe + SMA typical Lagic 1 Input: WoWBGS Wiviccaee 8 ke 2. aes 2V min; Voc max. COUME aoe e 2.7V = 20uA max. 5.5V = 1mA max. Logic 0 Input: ite]: [c eee aes -O max, SUITE eth tk len eo ace cen eee eee 7 GMA max. Logic 1 Voltage out: .. wae et es 2.7 min, Logic O Voltage oul: 2... ee 5V max. Operating temperature range: 2... 4% Oto +70C Storage temperature: ee ee -55 to +125C. Delays increase or decrease approximately 4% for a respective increase or decrease of 5% in supply valtage. 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: MFLDL-TTL-10G (Gull Wing), MFLDL-TTL-25J (J Lead), MFLDL-TTL-75F (Thru-hole Lead) or MFLDL- TTL-80T (Tucked Lead). @ DELAYS AND TOLERANCES (in ns) PART NO, OUTPUT PART NO. OUTPUT MELDL-TTL-5 5st MFLDL-TTL-30 30 41.5 MELDL-TTL-6 Be MFLDL-TTL-35 35 41.5 MELDL-TTL-? Te MFLDL-TTL-40 40 + 1.5 MFLDL-TTL-8 asd MFLDL-TTL-45 45 42 MELDL-TTL-9 944 MFLDL-TTL-50 50 +2 MELDL-TTL-10 id*4 MFLDL-TTL-55 55 +2 MELDL-TTL-11 +4 MELDL-TTL-60 60 +2 MFLDL-TTL-12 1244 MFLOL-TTL-65 6522.5 MFLDL-TTL-13 iad MFLDL-TTL-70 7042.5 MFLDL-TTL-14 1444 MELOL-TTL-?5 7542.5 MFLOL-TTL-15 1541 MFLOL-TTL-80 80425 MFLDL-TTL-16 1644 MFLDL-TTL-85 8543 MELDL-TTL-17 1721 MFLDL- TTL) a0 43 MELDL-TTL-18 1B41 MFELDL-TTL-95 9523 MPFLDL-TTL-19 1944 MPFLDL-TTL-100 100 +3 MELDL-TTL-20 20 +1 MFELDL-TTL-125 12544 MFLDL-TTL-21 2121 MPFLOL-TTL-150 150445 MFLDL-TTL-22 22 +1 MFLOL-TTL-175 17545 MFLDL-TTL-23 2341 MPFLDL-TTL-200 200 + 6 MFLDL-TTL-24 2441 MELDL-TTL-225 P25 +7 MFLDL-TTL-25 25 a 1 MFLDL-TTL-250 25048 @ 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 to improve accuracies and/or provide customer specified random delay times for specific applications. Catalog No. C/o90194