BLOCK DIAGRAM IS SHOWN BELOW Vee TAP 1 TAP 3 OUTPUT a 7 8 5 2 ly x x I I t L INPUT Ly DELAY LINE WITH l DRIVER TL PICKOFF l ! I 1 INPUT me 2 TAP 4 GROUND MECHANICAL DETAIL IS SHOWN BELOW 50> HEE 285 CGOTYP. wl | PinNo. 8 Ff G6 & o1 30UT MDFLDM- The e IN 2 4 C Pin Mo. 124 4 O30 2a staat eal | | 250 F i304 10 TYP. "opapia. TP! be / {_js-.100 TYP [ = | O o1o Of f : oe WO oO} oo sce 1 *Thru- -hole Lead "? + Hb an > i+: 1001P 010-4 7 | OBO TYP) fe wi mie 10 TP, eet re ASOTHP, UU Pe | | *Tucked Lead g4. TEST CONDITIONS 1. All measurements are made at 25C. 2. Veo supply voltage is maintained at 5.0 DC, 3. All units are tested using a Schottky taggle-type positive input pulse and one Schottky load at the output being tested. Input pulse width used is 5 to 10ns 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 supply voltage: . Veco supply current: 4.75 to 5.25V DC Constant "0" in 1. ea ee Sareea: cal Constant "Tin se Logic 7 Input: WIRE ae sce ae ee ie klar . 2V min; Vee max. Curent. 0 sen nie eeete 2.7V = 20uA max. 5,5 = 1mA max. Logic 0 Input: Vollage eee ee es see ee .BY max. (CUMBAL sc eass a aetna easter -.6mA max, Logic 1 Voltaga out: 2... we 2.7 min. Logic O Voltage out: 21 ee ee eee SV max, Operating temperature range: ...... Oto 70C Storage temperatura:, 2... 2... =55 to +125C. * Delays increase or decrease approximately 2% 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: MDFLDM- TTL-10G (Gull Wing), MOFLOM-TTL-25J (J Lead), MDFLDM-TTL- 75F (Thru-hole Lead) or MDFLDM-TTL-12T (Tucked Lead). @ DELAYS AND TOLERANCES (in ns) PART NO, TAP 1 TAP 2 TAP 3 TAP 4 | OUTPUT, MDFLOM-TTL-16 641 Tal B+1 ost i021 MOFLDM-TTL-12 6 +1 7.5 21 941 1541] 1221 MOFLDM-TTL-14 6+1 821 1021 1221 14 21 MOFLOM-TTL-16 6+1 8.5 #1 ital 13.521] 1621 MOFLDM-TTL-18 B+1 gi 1221 15 21 18 +1 MOFLOM-TTL-22 6+1 10 41 1421 16 +1 22 +1 MOFLOM-TTL-25 S#1 10 41 15 41 20 41 25 41 MDFLOM-TTL-30 621 12 41 18 41 2421 30 41 MDFLOM-TTL-35 T2l 1441 2141 2621.5] 3541.5 MDFLOM-TTL-40 8 #1 16 41 24 41.5 S241.6] 4041.5 MDFLOM-TTL-45 941 18 +1 af 415 5621.5] 4542 MDFLOM-TTL-50 10 #1 20 +1 3021.5 40 22 50 22 MDOFLOM-TTL-55 isl 22 +1 33 41.5 44 42 55 22 MDFLOM-TTL-60 12 41 2421 36 41.5 48 +2 BO 42 MDFLDOM-TTL-65 14 #1 2641.5 | 3941-5 52 42 65 22.5 MDFLOM-TTL-70 14 41 2415) 42 42 56 22 70 42,5 MDFLOM-TTL-75 16 41 S0415] 45 42 6022.5] 7542.5 MOFLOM-TTL-80 1641 $2415] 4842 6422.5] 8043 MDFLOM-TTL-85 VF #1 $441.5] 51 42 6822.5] 8543 MOFLOM-TTL-90 18 +1 B6415) 54 ae 7242.5] 90243 MDFLOM-TTL-95 19 1 BH415 | SF ae 7622.5) 9523 MDFLOM-TTL-100 | 2041 4041.5 | 6042 8923 | 100 43 MDFLOM-TTL-125 | 25 21 50 +2 7542.5 | 10023 | 125 24 MDFLOM-TTL-150 | 3021.5 | 6022 BO 3 12024 | 150 45 MDFLOM-TTL-175 | 3541.5 | 7022.5) 105 44 14025 | 175 45 MOFLOM-TTL-200 | 4021.5] 8022.5] 120 24 16025 | 200 46 MDBFLOM-TTL-225 45 42 90 43 135 24 180 +6 225 47 MOFLOM-TTL-250 | 50 +2 100 43 1024.5] 20068 | 250 28 MOFLOGM-TTL-300 | 60 x2 120 +4 180 +5 24047 | 300 26 MOFLDM-TTL-380 | 702 140 44.5 | 210 +7 pao+o | 350411 MOFLOM-TTL-400 | 8023 160 +5 240 47 320410 | 400 #12 MOFLOM-TTL-450 | 6043 180 26 270 +8 S60211 | 450214 MDFLOM-TTL-500 100 +3 200 +6 300 +6 400 412 | 500415 @All modules can be operated with a minimum input pulse width of 40% 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. G/103092