NB7L585 2.5V / 3.3V Differential 2:1 Mux Input to 1:6 LVPECL Clock/Data Fanout Buffer / Translator NB7L585 Exposed Pad (EP) Table 1. INPUT SELECT FUNCTION TABLE SEL* CLK Input Selected 32 31 30 29 28 27 26 25 0 IN0 IN0 1 24 GND 1 IN1 VT0 2 23 VCC *Defaults HIGH when left open. VREFAC0 3 22 Q2 IN0 Q2 4 21 NB7L585 IN1 Q3 5 20 VT1 6 19 Q3 VREFAC1 7 18 VCC IN1 GND 8 17 910 11 12 13 14 15 16 Figure 2. Pinout: QFN32 (Top View) Table 2. PIN DESCRIPTION Pin Number Pin Name I/O Pin Description 1,4 IN0, IN0 LVPECL, CML, Noninverted, Inverted, Differential Data Inputs internally biased to V /2 CC 5,8 IN1, IN1 LVDS Input 2,6 VT0, VT1 Internal 100 Centertapped Termination Pin for IN0 / IN0 and IN1 / IN1 31 SEL LVTTL/LVCMOS Input Select pin LOW for IN0 Inputs, HIGH for IN1 Inputs defaults HIGH when left Input open 10 NC No Connect 11, 16, 18 V Positive Supply Voltage. All V pins must be connected to the positive power supply CC CC 23, 25, 30 for correct DC and AC operation. 29, 28 Q0, Q0 LVPECL Output Noninverted, Inverted Differential Outputs Note 1. 27, 26 Q1, Q1 22, 21 Q2,Q2 20, 19 Q3, Q3 15, 14 Q4, Q4 13, 12 Q5, Q5 9, 17, 24, 32 GND Negative Supply Voltage, connected to Ground 3 VREFAC0 Output Voltage Reference for CapacitorCoupled Inputs 7 VREFAC1 EP The Exposed Pad (EP) on the QFN32 package bottom is thermally connected to the die for improved heat transfer out of package. The exposed pad must be attached to a heatsinking conduit. The pad is electrically connected to the die, and must be elec- trically and thermally connected to GND on the PC board. 1. In the differential configuration when the input termination pins (VT0, VT1) are connected to a common termination voltage or left open, and if no signal is applied on INn/INn input, then the device will be susceptible to selfoscillation. 2. All V and GND pins must be externally connected to a power supply for proper operation. CC