Datasheet

ManualsBrandsANALOG DEVICES ManualsClock & Timing ICsLFCSP 32 WQ

AD9553

Rev. A | Page 24 of 44

The mode control bits establish the logic family and output pin

function of the associated output driver per Table 19

. The logic

families include LVDS, LVPECL, and CMOS. Because both

output drivers support the LVDS and LVPECL logic families,

each driver has two pins to handle the differential signals associated

with these two logic families. The OUT1 driver uses the OUT1

and

OUT1

pins and the OUT2 driver uses the OUT2 and

OUT2

pins. However, the CMOS logic family handles only single-ended

signals, thereby requiring only one pin. Even though CMOS

only requires one pin, both pins of OUT1 and both pins of

OUT2 have a dedicated CMOS driver.

Note that the LVPECL mode of the AD9553 is not implemented

using an emitter-follower topology, and therefore, a pull-down

resistor is not needed (and should be avoided) on the output pins.

Rather, it uses a CMOS output driver whose output amplitude

and common-mode voltage are compatible with LVPECL speci-

fications. 100 Ω termination across the output pair is still

recommended.

The user has the option to disable (that is, tristate) either or both of

the pins for OUT1 and/or OUT2 via the mode control bits (see

Table 19 for the 001, 010, and 011 bit patterns). Alternatively,

the user can make both pins active (see Table 19, Bit Pattern 000)

to produce two single-ended CMOS output clocks at OUT1

and/or OUT2.

Table 19. Output Mode Control Bits

Mode Control Bits Logic Family

Pin Function of the

Output Driver

000 CMOS Both pins active

001 CMOS Positive pin active,

negative pin tristate

010 CMOS Positive pin tristate,

negative pin active

011 CMOS Both pins tristate

100 LVDS Both pins active

101 LVPECL Both pins active

110 Unused Unused

111 Unused Unused

Note that the pin decoder for the OM2 to OM0 pins generates

two sets of mode control bits: one set for the OUT1 driver and

another set for the OUT2 driver. The relationship between the

logic levels applied to the OM2 to OM0 pins and the resulting

mode control bits appears in Table 20.

Table 20. OM2 to OM0 Pin Decoder

Pin OM2 to

Pin OM0

Mode Control Bits

OUT1 OUT2

000 101 101

001 101 100

010 100 101

011 101 001

100 100 100

101 100 001

110 001 100

111 001 001

This decoding scheme allows the OM2 to OM0 pins to establish a

matrix of logic family selections for the OUT1 and OUT2 drivers as

shown in Table 21

. Note that when the OM2 to OM0 pins select the

CMOS logic family, the signal at the

OUT1

pin is a phase aligned

replica of the signal at the OUT1 pin and the signal at the

OUT2

pin is a phase aligned replica of the signal at the OUT2 pin.

Table 21. Logic Family Assignment via the OM2 to OM0 Pins

Pin OM2 to

Pin OM0

Logic Family

OUT1 OUT2

000 LVPECL LVPECL

001 LVPECL LVDS

010 LVDS LVPECL

011 LVPECL CMOS

100 LVDS LVDS

101 LVDS CMOS

110 CMOS LVDS

111 CMOS CMOS