NB7V32MMNG Datasheet NB7V32MMNTXG, NB7V32MMNG, NB7V32MMNHTBG | P4-P6

NB7V32M

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Table 5. DC CHARACTERISTICS POSITIVE CML OUTPUT V

= 1.71 V to 2.625 V; GND = 0 V; T

= −40°C to 85°C (Note 4)

Symbol

Characteristic Unit

Min Typ Max

POWER SUPPLY CURRENT

Power Supply Current (Inputs and Outputs Open)

= 2.5 V $ 5%

= 1.8 V $ 5%

100

CML OUTPUTS

Output HIGH Voltage (Note 5)

= 2.5 V

= 1.8 V

– 30

2470

1770

– 1

2490

1790

2500

1800

Output LOW Voltage (Note 5)

= 2.5 V

– 600

1900

– 500

2000

– 400

2100

= 1.8 V

– 550

1250

– 450

1350

– 350

1450

DIFFERENTIAL INPUTS DRIVEN SINGLE−ENDED (Note 6) (Figures 5 and 7)

Input Threshold Reference Voltage Range (Note 7) 1050 V

− 100 mV

Single−Ended Input HIGH Voltage V

+ 100 V

Single−Ended Input LOW Voltage GND V

− 100 mV

ISE

Single−Ended Input Voltage (V

− V

) 200 1200 mV

VREFAC

REFAC

Output Reference Voltage @ 100 mA for capacitor− coupled inputs, only

= 2.5 V

(Note 8) V

= 1.8 V

– 850

– 750

– 500

– 450

DIFFERENTIAL INPUTS DRIVEN DIFFERENTIALLY (Figures 6 and 9) (Note 9)

IHD

Differential Input HIGH Voltage 1100 V

ILD

Differential Input LOW Voltage GND V

− 100 mV

Differential Input Voltage (V

IHD

− V

ILD

) 100 1200 mV

CMR

Input Common Mode Range (Differential Configuration, Note 10) (Fig-

ure 9)

1050 V

− 50 mV

Input HIGH Current (VTCLK/VTCLK Open) −150 150 uA

Input LOW Current (VTCLK/VTCLK Open) −150 150 uA

CONTROL INPUT (Reset Pin)

Input HIGH Voltage for Control Pin V

− 200 V

Input LOW Voltage for Control Pin GND 200 mV

Input HIGH Current −150 150 uA

Input LOW Current −150 150 uA

TERMINATION RESISTORS

TIN

Internal Input Termination Resistor (@ 10 mA) 45 50 55

TOUT

Internal Output Termination Resistor (@ 10 mA) 45 50 55

NOTE: Device will meet the specifications after thermal equilibrium has been established when mounted in a test socket or printed circuit

board with maintained transverse airflow greater than 500 lfpm. Electrical parameters are guaranteed only over the declared

operating temperature range. Functional operation of the device exceeding these conditions is not implied. Device specification limit

values are applied individually under normal operating conditions and not valid simultaneously.

4. Input and output parameters vary 1:1 with V

5. CML outputs loaded with 50 W to V

for proper operation.

6. V

, V

and V

ISE

parameters must be complied with simultaneously.

7. V

is applied to the complementary input when operating in single−ended mode.

8. V

REFAC

will not be less than GND + 1050 mV.

9. V

IHD

, V

ILD,

and V

CMR

parameters must be complied with simultaneously.

NB7V32M

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10.V

CMR

min varies 1:1 with GND, V

CMR

max varies 1:1 with V

. The V

CMR

range is referenced to the most positive side of the differential

input signal.

Table 6. AC CHARACTERISTICS V

= 1.71 V to 2.625 V; GND = 0 V; T

= −40°C to 85°C (Note 11)

Symbol

Characteristic Min Typ Max Unit

MAX

Maximum Input Clock Frequency 10 GHz

OUTPP

Output Voltage Amplitude (@ V

INPPmin

) f

≤ 10GHz

(Note 12) (Figure 3)

280 400 mV

PLH

PHL

Propagation Delay to Differential Outputs, @

1 GHz, measured at differential cross−point

CLK/CLK to Q, Q

R to Q, Q

150 200

200

275 ps

PLH

TC Propagation Delay Temperature Coefficient 50

Dfs/°C

skew

Duty Cycle Skew (Note 13)

Device − Device skew (t

pdmax

– t

pdmin

)

Reset Recovery (See Figure 11) 300 135

Minimum Pulse Width R 500 200

Output Clock Duty Cycle (Reference Duty Cycle = 50%) f

v 10 GHz 45 50 55 %

JITTER

RJ – Output Random Jitter (Note 14) f

v 10 GHz 0.2 0.8 ps

RMS

INPP

Input Voltage Swing (Differential Configuration) (Figure 10) (Note 15) 100 1200 mV

Output Rise/Fall Times @ 1 GHz (20% − 80%), Q, Q 35 60 ps

NOTE: Device will meet the specifications after thermal equilibrium has been established when mounted in a test socket or printed circuit

board with maintained transverse airflow greater than 500 lfpm. Electrical parameters are guaranteed only over the declared

operating temperature range. Functional operation of the device exceeding these conditions is not implied. Device specification limit

values are applied individually under normal operating conditions and not valid simultaneously.

11. Measured using a 1 GHz, V

INPP

min, 50% duty−cycle clock source. All output loading with external 50 W to V

. Input edge rates 40 ps

(20% − 80%).

12.Output voltage swing is a single−ended measurement operating in differential mode.

13.Duty cycle skew is defined only for differential operation when the delays are measured from cross−point of the inputs to the cross−point

of the outputs. Duty cycle skew is measured between differential outputs using the deviations of the sum of T

pw−

and T

pw+

@ 1 GHz. Skew

is measured between outputs under identical transitions and conditions.

14.Additive RMS jitter with 50% duty cycle clock signal.

15.Input voltage swing is a single−ended measurement operating in differential mode.

Figure 3. CLOCK Output Voltage Amplitude

OUTPP

) vs. Input Frequency (f

) at Ambient

Temperature (Typ)

fin, Clock Input Frequency (GHz)

OUTPUT VOLTAGE AMPLITUDE

(mV)

500

450

400

350

300

200

Q AMP (mV)

Figure 4. Input Structure

50 W

CLK

VTCLK

250

0246810

CLK

NB7V32M

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CLK

Figure 5. Differential Input Driven

Single−Ended

IHmax

ILmax

IHmin

ILmin

thmax

thmin

GND

CLK

ILDmax

IHDmax

IHDtyp

ILDtyp

IHDmin

ILDmin

CMR

GND

= V

IHD

− V

ILD

CLK

PLH

PHL

OUTPP

= V

(Q) − V

(Q)

INPP

= V

(CLK) − V

(CLK)

IHD

ILD

= |V

IHD(CLK)

− V

ILD(CLK)|

CLK

Figure 6. Differential Inputs

Driven Differentially

Figure 7. V

Diagram Figure 8. Differential Inputs Driven Differentially

Figure 9. V

CMR

Diagram Figure 10. AC Reference Measurement

CLK

CMmax

CMmin

Figure 11. AC Reference Measurement (Timing Diagram)

PHL

PLH

RR(MIN)

50% 50%

50%

CLK

OUTPP

= V

(Q) − V

(Q)

INPP

= V

(CLK) − V

(CLK)

P1-P3 P4-P6 P7-P9

NB7V32MMNG

Mfr. #:

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Manufacturer:

ON Semiconductor

Description:

Clock Drivers & Distribution 1.8/2.5V DIV BY 2

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NB7V32MMNG

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