LMK04010BISQE National Semiconductor, LMK04010BISQE Datasheet - Page 20

LMK04010BISQE

Manufacturer Part Number

LMK04010BISQE

Description

Manufacturer

National Semiconductor

Datasheet

1.LMK04010BISQE.pdf (54 pages)

Specifications of LMK04010BISQE

Operating Temperature (max)

85C

Operating Temperature (min)

-40C

Pin Count

Mounting

Surface Mount

Lead Free Status / RoHS Status

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Note 7: Load conditions for output clocks: LVPECL: 50 Ω to V

Note 8: Additional test conditions for I

Note 9: CLKin0 and CLKin1 maximum of 400 MHz is guaranteed by characterization, production tested at 200 MHz.

Note 10: In order to meet the jitter performance listed in the subsequent sections of this data sheet, the minimum recommended slew rate for all input clocks is

0.5 V/ns. This is especially true for single-ended clocks. Phase noise performance will begin to degrade as the clock input slew rate is reduced. However, the

device will function at slew rates down to the minimum listed. When compared to single-ended clocks, differential clocks (LVDS, LVPECL) will be less susceptible

to degradation in phase noise performance at lower slew rates due to their common mode noise rejection. However, it is also recommended to use the highest

possible slew rate for differential clocks to achieve optimal phase noise performance at the device outputs.

Note 11: This parameter is programmable

Note 12: F

Note 13: The EN_PLL2_REF2X bit (Register 13) enables/disables a frequency doubler mode for the PLL2 OSCin path.

Note 14: See Application Section discussion of Crystal Power Dissipation.

Note 15: A specification in modeling PLL in-band phase noise is the 1/f flicker noise, L

dB/decade slope. PN10kHz is normalized to a 10 kHz offset and a 1 GHz carrier frequency. PN10kHz = L

(f) is the single side band phase noise of only the flicker noise's contribution to total noise, L(f). To measure L

slope close to the carrier. A high compare frequency and a clean crystal are important to isolating this noise source from the total phase noise, L(f). L

can be masked by the reference oscillator performance if a low power or noisy source is used. The total PLL inband phase noise performance is the sum of

Note 16: A specification modeling PLL in-band phase noise. The normalized phase noise contribution of the PLL, L

(f)-20log(N)-10log(f

frequency of the synthesizer. L

Note 17: Maximum Allowable Temperature Drift for Continuous Lock is how far the temperature can drift in either direction from the value it was at the time that

the R0 register was last programmed, and still have the part stay in lock. The action of programming the R0 register, even to the same value, activates a frequency

calibration routine. This implies the part will work over the entire frequency range, but if the temperature drifts more than the maximum allowable drift for continuous

lock, then it will be necessary to reload the R0 register to ensure it stays in lock. Regardless of what temperature the part was initially programmed at, the

temperature can never drift outside the frequency range of -40 °C to 85 °C without violating specifications.

PLL_flicker

SKEW

DUTY

ChanX - ChanY

(f) and L

Symbol

OSCin

CLKout

SKEW

CWH

CWL

CLK

maximum frequency guaranteed by characterization. Production tested at 200 MHz.

PLL_flat

COMP

(f).

). L

PLL_flat

(f) is the single side band phase noise measured at an offset frequency, f, in a 1 Hz bandwidth and f

Output High Current (Source)

channel or different channel

LVCMOS to LVPECL skew

Data to Clock Set Up Time

Output Low Current (Sink)

Load Enable Pulse Width

(f) contributes to the total noise, L(f).

Data to Clock Hold Time

LVCMOS outputs, same

LVDS to LVCMOS skew

LVPECL to LVDS skew

Clock Pulse Width High

Skew between any two

Clock Pulse Width Low

Clock to Latch Enable

Maximum Frequency

Output High Voltage

Output Low Voltage

Output Duty Cycle

limits: All clock delays disabled, CLKoutX_DIV = 510, PLL1 and PLL2 locked. (See

Output Rise Time

Output Fall Time

Set Up Time

Parameter

LVCMOS Clock Outputs (CLKoutX)

Microwire Interface Timing

-2 V. 2VPECL: 50 Ω to V

Mixed Clock Skew

T = 25 °C, F

See Microwire Input Timing

MHz, T = 25 °C

Same device, T = 25 °C,

20% to 80%, RL = 50 Ω,

80% to 20%, RL = 50 Ω,

/2 to V

= 50 Ω, C

= 3.3 V, V

Conditions

1 mA Load

5 pF Load

CL = 5 pF

(Note

250 MHz

PLL_flicker

CLK

/2, F

-2.36 V. LVDS: 100 Ω differential. LVCMOS: 10 pF.

36)

= 100 MHz.

(f), which is dominant close to the carrier. Flicker noise has a 10

= 10 pF,

(Note

CLK

= 1.65 V

= 100

38)

PLL_flicker

(10 kHz) - 20log(Fout / 1 GHz), where L

PLL_flat

Min

250

(f) it is important to be on the 10 dB/decade

- 0.1

(f), is defined as: PN1HZ=L

Table 31

-230

-540

Typ

400

770

COMP

for more information)

is the phase detector

Max

100

0.1

PLL_flat

PLL_flicker

Units

MHz

(f)

LMK04010BISQE National Semiconductor, LMK04010BISQE Datasheet - Page 20

LMK04010BISQE

Specifications of LMK04010BISQE

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