Product Overview MC100EP195: 3.3 V ECL Programmable Delay Chip For complete documentation, see the data sheet Product Description NECL/PECL input transition. The delay section consists of a programmable matrix of gates and multiplexers as shown in the data sheet logic diagram. The delay increment of the EP195 has a digitally selectable resolution of about 10 ps and a range of up to 10.2 ns. The required delay is selected by the 10 data select inputs D(0:9) which are latched on chip by a high signal on the latch enable (LEN) control. The MC10/100EP195 is a programmable delay chip (PDC) designed primarily for clock deskewing and timing adjustment. It provides variable delay of a differential The approximate delay values for varying tap numbers correlating to D0 (LSB) through D9 (MSB) are shown in the data sheet. Because the EP195 is designed using a chain of multiplexers it has a fixed minimum delay of 2.2 ns. An additional pin D10 is provided for cascading multiple PDCs for increased programmable range. The cascade logic allows full control of multiple PDCs. Select input pins D0-D10 may be threshold controlled by combinations of interconnects between VEF (pin 7) and VCF (pin 8) for CMOS, ECL, or TTL level signals. For CMOS input levels, leave VCF and VEF open. For ECL operation, short VCF and VEF (pins 7 and 8). For TTL level operation, connect a 1.5 V supply reference to VCF and leave open VEF pin. The 1.5 V reference voltage to VCF pin can be accomplished by placing a 1.5k Ohm or 500 Ohm resistor between VCF and VEE for 3.3 V or 5.0 V power supplies, respectively. The VBB pin, an internally generated voltage supply, is available to this device only. For single-ended input conditions, the unused differential input is connected to VBB as a switching reference voltage. VBB may also rebias AC coupled inputs. When used, decouple VBB and VCC via a 0.01 uF capacitor and limit current sourcing or Features • • • • • • • • • • Maximum Frequency > 1.2 Ghz Typical Programmable Range: 2.2 ns to 12.2 ns 10 ps Increments PECL Mode Operating Range: VCC = 3.0 V with VEE = 0 V NECL Mode Operating Range: VCC = 0 V with VEE = -3.0 V Open Input Default State Safety Clamp on Inputs A Logic High on the ENbar Pin Will Force Q to Logic Low D[0:10] Can Accept Either ECL, CMOS, or TTL Inputs. VBB Output Reference Voltage For more features, see the data sheet Applications • Automated Test Equipement (ATE) • General Purpose Data and Clock Interface Part Electrical Specifications Product Compliance Status Input Level Output Level VCC Typ (V) fMax Typ (MHz) td(prog) Min (ns) td(prog) Max (ns) td(step) Typ (ps) tJitter Typ (ps) tR & tF Max (ps) Package Type MC100EP195FAG Pb-free Active ECL ECL 3.3 1200 7.85 10.95 14 1.16 135 LQFP-32 Halide free MC100EP195FAR2G Pb-free CML Active Halide free MC100EP195MNG Pb-free Pb-free Halide free ECL 3.3 1200 7.85 10.95 14 1.16 ECL Active Halide free MC100EP195MNR4G CML 200 ECL CML LQFP-32 200 ECL 3.3 1200 7.85 10.95 14 1.16 CML Active 135 135 QFN-32 200 ECL 3.3 1200 7.85 ECL For more information please contact your local sales support at www.onsemi.com 10.95 14 1.16 135 200 QFN-32 Created on: 6/30/2016