9ZX21501CKLF Datasheet 9ZX21501CKLF, 9ZX21501CKLFT | P7-P9

9ZX21501C

FIFTEEN OUTPUT DIFFERENTIAL ZBUFFER FOR PCIE GEN2/3 AND QPI

IDT®

FIFTEEN OUTPUT DIFFERENTIAL ZBUFFER FOR PCIE GEN2/3 AND QPI 7

9ZX21501C REV F 041613

Electrical Characteristics–DIF 0.7V Current Mode Differential Outputs

Electrical Characteristics–Current Consumption

TA = T

COM;

Supply Voltage VDD/VDDA = 3.3 V +/-5%, See Test Loads for Loading Conditions

PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS NOTES

Slew rate Trf Scope avera

on 1 2.5 4

V/ns

1, 2, 3

Slew rate matchin

Trf Slew rate matchin

, Scope avera

on 20

1, 2, 4

Voltage High VHigh 660 750 850 1

Voltage Low VLow -150 150 1

Max Volta

eVmax 1150 1

Min Voltage Vmin -300 1

Vswing Vswing Scope averaging off 300 mV 1, 2

Crossing Voltage (abs) Vcross_abs Scope averaging off 250 550 mV 1, 5

Crossing Voltage (var)

-Vcross Scope averaging off 140 mV 1, 6

Measured from differential waveform

Vcross is defined as voltage where Clock = Clock# measured on a component test board and only applies to the differential rising

edge (i.e. Clock rising and Clock# falling).

The total variation of all Vcross measurements in any particular system. Note that this is a subset of V_cross_min/max (V_cross

absolute

)

allowed. The intent is to limit Vcross induced modulation b

settin

V_cross_delta to be smaller than V_cross absolute.

Statistical measurement on single-ended signal

using oscilloscope math function. (Scope

averaging on)

Measurement on single ended signal using

absolute value. (Scope averaging off)

Guaranteed by design and characterization, not 100% tested in production. IREF = VDD/(3xR

). For R

= 475

Ω

(1%), I

REF

= 2.32mA.

= 6 x I

REF

and V

= 0.7V @ Z

=50

Ω

(100

Ω

differential impedance).

Slew rate is measured through the Vswing voltage range centered around differential 0V. This results in a +/-150mV window around

differential 0V.

Matching applies to rising edge rate for Clock and falling edge rate for Clock#. It is measured using a +/-75mV window centered on

the average cross point where Clock rising meets Clock# falling. The median cross point is used to calculate the voltage thresholds the

oscilloscope is to use for the edge rate calculations.

TA = T

COM;

Supply Voltage VDD/VDDA = 3.3 V +/-5%, See Test Loads for Loading Conditions

PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS NOTES

Operating Supply Current I

DD3.3OP

All outputs active @100MHz, C

= Full load; 390 425 mA 1

Powerdown Current

DD3.3PDZ

All differential pairs tri-stated 5 15 mA 1

Guaranteed by design and characterization, not 100% tested in production.

9ZX21501C

FIFTEEN OUTPUT DIFFERENTIAL ZBUFFER FOR PCIE GEN2/3 AND QPI

IDT®

FIFTEEN OUTPUT DIFFERENTIAL ZBUFFER FOR PCIE GEN2/3 AND QPI 8

9ZX21501C REV F 041613

Electrical Characteristics–Skew and Differential Jitter Parameters

TA = T

COM;

Supply Voltage VDD/VDDA = 3.3 V +/-5%, See Test Loads for Loading Conditions

PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS NOTES

CLK_IN, DIF[x:0] t

SPO_PLL

Input-to-Output Skew in PLL mode

nominal value @ 25°C, 3.3V

-100 0 100 ps 1,2,4,5,8

CLK_IN, DIF[x:0] t

PD_BYP

Input-to-Output Skew in Bypass mode

nominal value @ 25°C, 3.3V

2.5 3.5 4.5 ns 1,2,3,5,8

CLK_IN, DIF[x:0] t

DSPO_PLL

Input-to-Output Skew Varation in PLL mode

across volta

e and temperature

-50 0 50 ps 1,2,3,5,8

CLK_IN, DIF[x:0] t

DSPO_BYP

Input-to-Output Skew Varation in Bypass mode

across voltage and temperature

-250 0 250 ps 1,2,3,5,8

CLK_IN, DIF[x:0] t

DTE

Random Differential Tracking error beween two

9ZX devices in Hi BW Mode

(rms)

1,2,3,5,8

CLK_IN, DIF[x:0] t

DSSTE

Random Differential Spread Spectrum Tracking

error beween two 9ZX devices in Hi BW Mode

15 75 ps 1,2,3,5,8

DIF{x:0] t

SKEW_ALL

Output-to-Output Skew across all outputs

(Common to Bypass and PLL mode)

37 65 ps 1,2,3,8

PLL Jitter Peaking j

eak-hibw

LOBW#_BYPASS_HIBW = 1 0 1.3 2.5 dB 7,8

PLL Jitter Peaking j

eak-lobw

LOBW#_BYPASS_HIBW = 0 0 0.8 2 dB 7,8

PLL Bandwidth pll

HIBW

LOBW#_BYPASS_HIBW = 1 2 3 4 MHz 8,9

PLL Bandwidth pll

LOBW

LOBW#_BYPASS_HIBW = 0 0.7 1.1 1.4 MHz 8,9

Duty Cycle t

Measured differentially, PLL Mode 45 50 55 % 1

Duty Cycle Distortion t

DCD

Measured differentially, Bypass Mode

@100MHz

-2 0 2 % 1,10

PLL mode 41 50 ps 1,11

Additive Jitter in Bypass Mode 20 50 ps 1,11

Notes for preceding table:

t is the period of the input clock

Measured as maximum pass band

ain. At frequencies within the loop BW, hi

hest point of ma

nification is called PLL jitter peakin

Guaranteed by design and characterization, not 100% tested in production.

Measured at 3 db down or half power point.

Duty cycle distortion is the difference in duty cycle between the output and the input clock when the device is operated in bypass mod

Measured from differential waveform

Jitter, Cycle to cycle t

jcyc-cyc

Measured into fixed 2

F load ca

. In

ut to out

ut skew is measured at the first out

ut ed

e followin

the corres

ondin

ut.

All B

ass Mode In

ut-to-Out

ut s

ecs refer to the timin

between an in

ut ed

e and the s

ecific out

ut ed

e created b

it.

This parameter is deterministic for a given device

Measured from differential cross-point to differential cross-point. This parameter can be tuned with external feedback path, if present.

Measured with scope averaging on to find mean value. DIF_IN slew rate must be matched to DIF output slew rate.

9ZX21501C

FIFTEEN OUTPUT DIFFERENTIAL ZBUFFER FOR PCIE GEN2/3 AND QPI

IDT®

FIFTEEN OUTPUT DIFFERENTIAL ZBUFFER FOR PCIE GEN2/3 AND QPI 9

9ZX21501C REV F 041613

Electrical Characteristics–Phase Jitter Parameters

TA = T

COM;

Supply Voltage VDD/VDDA = 3.3 V +/-5%, See Test Loads for Loading Conditions

PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS Notes

hPCIeG1

PCIe Gen 1 39 86 ps (p-p) 1,2,3

PCIe Gen 2 Lo Band

10kHz < f < 1.5MHz

1.1 3

(rms)

1,2

PCIe Gen 2 High Band

1.5MHz < f < Nyquist (50MHz)

2.6

3.1

(rms)

1,2

jphPCIeG3

PCIe Gen 3

(PLL BW of 2-4MHz, CDR = 10MHz)

0.6

(rms)

1,2,4

QPI & SMI

(100MHz or 133MHz, 4.8Gb/s, 6.4Gb/s 12UI)

0.36 0.5

(rms)

1,5

QPI & SMI

(100MHz, 8.0Gb/s, 12UI)

0.23 0.3

(rms)

1,5

QPI & SMI

(100MHz, 9.6Gb/s, 12UI)

0.18 0.2

(rms)

1,5

hPCIeG1

PCIe Gen 1 4 10 ps (p-p) 1,2,3

PCIe Gen 2 Lo Band

10kHz < f < 1.5MHz

0.25 0.3

(rms)

1,2,6

PCIe Gen 2 High Band

1.5MHz < f < Nyquist (50MHz)

0.57 0.7

(rms)

1,2,6

jphPCIeG3

PCIe Gen 3

(PLL BW of 2-4MHz, CDR = 10MHz)

0.20

0.3

(rms)

1,2,4,6

QPI & SMI

(100MHz or 133MHz, 4.8Gb/s, 6.4Gb/s 12UI)

0.22 0.3

(rms)

1,5,6

QPI & SMI

(100MHz, 8.0Gb/s, 12UI)

0.08 0.1

(rms)

1,5,6

QPI & SMI

(100MHz, 9.6Gb/s, 12UI)

0.08 0.1

(rms)

1,5,6

Applies to all outputs.

For RMS figures, additive jitter is calculated by solving the following equation: (Additive jitter)^2 = (total jittter)^2 - (input jitter)^2

jphQPI_SMI

jphPCIeG2

Sam

le size of at least 100K c

cles. This fi

ures extra

olates to 108

k @ 1M c

cles for a BER of 1-12.

Subject to final ratification by PCI SIG.

Calculated from Intel-su

lied Clock Jitter Tool v 1.6.3

Additive Phase Jitter,

Bypass mode

jphQPI_SMI

See http://www.pcisig.com for complete specs

Jitter, Phase

jphPCIeG2

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P19

9ZX21501CKLF

Mfr. #:

Buy 9ZX21501CKLF

Manufacturer:

IDT

Description:

Clock Buffer PCIE BUFFER - Z TECH

Lifecycle:

New from this manufacturer.

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9ZX21501CKLF

9ZX21501CKLF

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