DESIGN NOTES (continued) Marking consists of manufacturer's name, logo {EC2), part number, terminal identification and date code of manufacture. All marking is applied by silk screen process using white epoxy paint in accordance with MIL-STD-130, to meet the permanency of identification required by MIL-STD-202, Methad 215. BLOCK DIAGRAM IS SHOWN BELOW *Voc supply voltage: OPERATING SPECIFICATIONS ic iptaae RReUID Ee Ly 4.75 to 5.25V DC Vee Supply current: Constant "1" or O" in Constant 1Mbhz in hota typical z Sara typical Logic 1 Voltage in: . . . . : av Min; Veg Max, Logic O Voltage in: . rie or ie be a titags 4.3V min, @ 24ma. . O.44 max. @ +24ma. Lagic 1 Voltage out: Lagic O Voltage out: Operating temperature range: . Storage temperature: -40 to + 86C. 55 to + 126C. Pulse width increases or decreases approximately 1% for a respective increase or decrease of 5% in supply voltage. PART NUMBER TABLE Ved Our Vadj INPUT 14 9 B CS eee ee | x x | | | | INVERTER PULSE | | GENERATOR | | [ | | ee ee 6 7 OUT GROUND 800 | yo = Va IN VFRPG- ae 1S ACT. | + C &? 9001 MADE IN SLO USA Ce -030 060 | | | | | 130 +.020 TYR. a4 ae | 020 Dia. TYP. OO TYE | [4 aoe TYP. f ! | 200 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 an ACT toggle-type positive input pulse and one ACT load at the output, 4. Input pulse width used is 10ns for all modules; repetition rate is approximately 200 Kh. Pulse Width | Pulse Width | Maximum Part Number {in ns) Adjustability | Rep. Rate Vadj @ 4V | {nominal 4V) | {in Mhz) VFRPG-ACT-10 10 4+0.5 + 1,0ns 48.1 VERPG-ACT-11 11 +060.6 + 1.0ns 45.7 VFRPG-ACT-12 12 +0.5 + 1.0ns 43.5 VFRPG-ACT-13 13 46.5 = 1,0ns 41.56 VFRPG-ACT-14 14 40.5 + 1.0ns 39.6 VERPG-ACT-15 15 +0.5 + 1.0ns 37.9 VFAPG-ACT-16 16 +0.5 + 1,0ns 36.3 VFRAPG-ACT-17 17 +0.5 + 1,0ns o4.9 VEFRPG-ACT-18 18 +=0.5 + 1.0ns 33.6 VFRPG-ACT-193 19 +0.5 + 1.0ns a VERPG-ACT-20 20 +0,5 + 1,.0ns a1.1 VFRPG-ACT-21 71 +05 + 1.0ns 30.1 VFRPG-ACT-22 22 +05 + 1.16 23.0 VWEFRPG-ACT-23 24a +0.5 + 1.1ns 28.1 VFRPG-ACT-24 24 +0.5 + 1.1ns Zi VFRPG-ACT-25 26 +0.5 + 1.2ns 26.4 VFRPG-ACT-30 30 +0.6 + 1.3ns 22.8 VFRPG-ACT-35 35 +0.7 + 1.5ns 20.0 VFRPG-ACT-40 40 +0.8 + 1.7ns 17.8 VFERPG-ACT-45 45 +09 + 1.9ns 16.1 VFERPG-ACT-50 50 +1.0 + 2,0ns 14.6 VFRPG-ACT-60 60 +1.2 + 2.4ns 12.3 VFRPG-ACT-7O 70 +1.3 + 2.76 10.6 VFRPG-ACT-75 75 +1.4 + 2.9ns 9.9 VFRPG-ACT-80 80 +1.5 + 3.0ns 9.3 VFRPG-ACT-90 90 +1.6 + 3.3ns 8.3 VFRPG-ACT-100) 100 +1.8 + 3.6ns 7.6 VFRPG-ACT-150| 150 +2.5 + 5.2ns 4.9 VFAPG-ACT-200) 200 +3.5 + 6.6ns 3.6 VFRPG-ACT-250) 250 +4.0 + 8.0ns 2.9 VFRPG-ACT-300) GOO +45 + 9.3ans 24 VFRPG-ACT-400) 400 +6.0 +11.9ns 1? VFRPG-ACT-500) 500 +7.0 + 14,.5ns 1.4 Pulse widths are trimmable by adjusting V, between 3 and 5V Dc. All modules can be operated up to the maximum pulse rate specified in the Part Number Table with pulse widths as low as 10ns and pulse spacing as low as 10ns. Since pulse width accuracies may be somewhat degraded at high pulse rates, itis suggested that the module be evaluated under the specific operating conditions. Special modules can be readily manufac- tured to improve accuracies and/or provide customer specified random pulse widths for specific applications, Catalog No. C/011590