ICS552AR-01 Datasheet 552ARI-01LF, 552ARI-01LFT, 552AR-01LF | P7-P9

ICS552A-01

OSCILLATOR, MULTIPLIER, AND BUFFER WITH 8 OUTPUTS CLOCK MULTIPLIER AND BUFFER

IDT™ / ICS™

OSCILLATOR, MULTIPLIER, AND BUFFER WITH 8 OUTPUTS 7

ICS552A-01 REV E 051310

External Components

Series Termination Resistor

Clock output traces over one inch should use series

termination. To series terminate a 50Ω trace (a

commonly used trace impedance), place a 33Ω resistor

in series with the clock line, as close to the clock output

pin as possible. The nominal impedance of the clock

output is 20Ω.

Decoupling Capacitors

As with any high-performance mixed-signal IC, the

ICS552A-01 must be isolated from system power

supply noise to perform optimally.

Decoupling capacitors of 0.01µF must be connected

between each VDD and GND on pins 4 and 6, and 16

and 14. Other VDDs and GNDs can be connected to

these pins or directly to their respective ground planes.

Crystal Load Capacitors

The device crystal connections should include pads for

small capacitors from X1 to ground and from X2 to

ground. These capacitors are used to adjust the stray

capacitance of the board to match the nominally

required crystal load capacitance. Because load

capacitance can only be increased in this trimming

process, it is important to keep stray capacitance to a

minimum by using very short PCB traces (and no vias)

between the crystal and device. Crystal capacitors must

be connected from each of the pins X1 and X2 to

ground.

The value (in pF) of these crystal caps should equal (C

-12 pF)*2. In this equation, C

= crystal load capacitance

in pF. Example: For a crystal with a 18 pF load

capacitance, two 12 pF capacitors should be used. For

a clock input, connect it X1/ICLK and leave X2

unconnected (floating).

PCB Layout Recommendations

For optimum device performance and lowest output

phase noise, the following guidelines should be

observed.

1) Each 0.01µF decoupling capacitor should be

mounted on the component side of the board as close

to the VDD pin as possible. No vias should be used

between decoupling capacitor and VDD pin. The PCB

trace to VDD pin should be kept as short as possible, as

should the PCB trace to the ground via.

2) The external crystal should be mounted just next to

the device with short traces. The X1 and X2 traces

should not be routed next to each other with minimum

spaces, instead they should be separated and away

from other traces.

3) To minimize EMI, the 33Ω series termination resistor

(if needed) should be placed close to the clock output.

4) An optimum layout is one with all components on the

same side of the board, minimizing vias through other

signal layers.

ICS552A-01

OSCILLATOR, MULTIPLIER, AND BUFFER WITH 8 OUTPUTS CLOCK MULTIPLIER AND BUFFER

IDT™ / ICS™

OSCILLATOR, MULTIPLIER, AND BUFFER WITH 8 OUTPUTS 8

ICS552A-01 REV E 051310

Absolute Maximum Ratings

Stresses above the ratings listed below can cause permanent damage to the ICS552A-01. These ratings,

which are standard values for IDT commercially rated parts, are stress ratings only. Functional operation of

the device at these or any other conditions above those indicated in the operational sections of the

specifications is not implied. Exposure to absolute maximum rating conditions for extended periods can

affect product reliability. Electrical parameters are guaranteed only over the recommended operating

temperature range.

Recommended Operation Conditions

DC Electrical Characteristics

Unless stated otherwise, VDD = 3.3 V or 5 V, Ambient Temperature -40 to +85° C

Parameter Condition Min. Typ. Max. Units

Supply Voltage, VDD Referenced to GND 7 V

Inputs Referenced to GND -0.5 VDD+0.5 V

Clock Outputs Referenced to GND -0.5 VDD+0.5 V

Storage Temperature -65 150 ° C

Soldering Temperature Max 10 seconds 260 ° C

Junction Temperature 125 ° C

Parameter Min. Typ. Max. Units

Ambient Operating Temperature (commercial) 0 +70 ° C

Ambient Operating Temperature (industrial) -40 +85 ° C

Parameter Symbol Conditions Min. Typ. Max. Units

Operating Voltage VDD 3.0 5.5 V

Input High Voltage V

ICLK VDD/2+1 VDD/2 V

Input Low Voltage V

ICLK VDD/2 VDD/2-1 V

Input High Voltage V

S3:S0 2 V

Input Low Voltage V

S3:S0 0.8 V

Output High Voltage V

VDD = 3.3 V,

= -8 mA

2.4 V

Output Low Voltage V

VDD = 3.3 V,

= 8 mA

0.4 V

Output High Voltage V

VDD = 3.3 V or 5 V,

= -8 mA

VDD-0.4 V

Short Circuit Current I

VDD = 3.3 V, each

output

±50 mA

ICS552A-01

OSCILLATOR, MULTIPLIER, AND BUFFER WITH 8 OUTPUTS CLOCK MULTIPLIER AND BUFFER

IDT™ / ICS™

OSCILLATOR, MULTIPLIER, AND BUFFER WITH 8 OUTPUTS 9

ICS552A-01 REV E 051310

AC Electrical Characteristics

Unless stated otherwise, VDD = 3.3 V or 5 V, Ambient Temperature -40 to +85° C

Thermal Characteristics

Operating Supply Current I

at 3.3 V, no load, 25

MHz in, x4

35 mA

Operating Supply Current I

at 5 V, no load, 25 MHz

in, x4

59 mA

Power-down Supply

Current

S3:S0 = 0 (GND) 55 µA

Parameter Symbol Conditions Min. Typ. Max. Units

Input Frequency F

Fundamental crystal 10 27 MHz

Input clock–non-buffer

mode

10 27 MHz

Input clock–buffer

mode only

10 200 MHz

Output Rise Time t

0.8 to 2.0 V 1.5 ns

Output Fall Time t

2.0 to 0.8 V 1.5 ns

Duty Cycle at VDD/2 40 50 60 %

Output-to-Output Skew All modes, Rising

edges at VDD/2

250 ps

Absolute Jitter Mode A, Deviation from

Mean

±75 ps

One Sigma Clock Period Jitter Mode A 25 ps

Parameter Symbol Conditions Min. Typ. Max. Units

Thermal Resistance Junction to

Ambient

Still air 135 ° C/W

1 m/s air flow 93 ° C/W

3 m/s air flow 78 ° C/W

Thermal Resistance Junction to Case θ

60 ° C/W

Parameter Symbol Conditions Min. Typ. Max. Units

P1-P3 P4-P6 P7-P9 P10-P11

ICS552AR-01

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