LTC6902 查看數據表(PDF) - Linear Technology
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LTC6902 Datasheet PDF : 16 Pages
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LTC6902
QUICK DESIG GUIDE
Step 3. Calculating the RSET Resistor Value
The RSET resistor, the multiphase mode and the divider
setting set the output frequency (fOUT) for constant fre-
quency applications. For SSFM applications, the maxi-
mum frequency excursion (fMAX) is equal to fOUT.
R SET
=
20kΩ
•
N
10MHz
• M • fOUT
100 DIV Pin = V +
N = 10 DIV Pin = Open
1 DIV Pin = 0V
4
M = 3
1
(4 - Phase Output) PH Pin = V +
(3 - Phase Output) PH Pin = Open
(2 - Phase Output) PH Pin = 0V
Step 4. Calculating the RMOD Resistor Value
(Note: For constant frequency applications RMOD is not
required. Disable SSFM by connecting the MOD pin to
GND)
RMOD
=
20
•
RSET
Spreading Percentage
where the Spreading Percentage is defined by the
following:
Spreading Percentage = 100 • fMAX – fMIN
fMAX
where fMAX is the highest frequency excursion (set by the
RSET value calculated in Step 3) and fMIN is the lowest
frequency excursion.
Example
For a 4-phase, 250kHz clock with 40% spreading:
Connect PH Pin to V+ → Selects 4-Phase Mode, M = 4
Leave DIV Pin Open → N = 10
RSET = 20k → Sets fOUT = fMAX = 250kHz
RMOD = 10k → Sets Spreading to 40%
PI FU CTIO S
V+ (Pin 1): Supply Voltage ( 2.7V ≤ V+ ≤ 5.5V). The supply
should be kept free from noise and ripple. It should be
bypassed directly to a ground plane with a 0.1µF capacitor
placed as close to the pin as possible.
DIV (Pin 2): Divider Setting Input. This three-state input
selects among three divider settings determining the value
of N in the frequency equation. Pin 2 should be tied to GND
for the ÷1 setting, the highest frequency range. Floating
Pin 2, leaving it open, divides the master oscillator by 10.
Tie Pin 2 to V+ for the ÷100 setting, the lowest frequency
range. To detect a floating DIV pin, the LTC6902 places the
pin at the midsupply point with active circuitry. Therefore,
driving the DIV pin high requires sourcing approximately
2µA. Similarly, driving the DIV pin low requires sinking
2µA. When the DIV pin is floated, it should be bypassed by
a 1nF capacitor to GND or it should be surrounded by a
6
ground shield to prevent excessive coupling from other
PCB traces.
PH (Pin 3): Phase Setting Input. This three-state input
selects among three multiphase options. This sets the
outputs to produce 2-phase, 3-phase or 4-phase signals.
It also sets the value of M in the frequency equation. Pin 3
should be tied to GND for the 2-phase setting. This is the
highest frequency range with M set to 1. Floating Pin 3,
leaving it open, selects the 3-phase setting. This also sets
M to 3. Tie Pin 3 to V+ for the 4-phase setting. This is the
lowest frequency range as M is set to 4. To detect a floating
PH pin, the LTC6902 places the pin at the midsupply point
with active circuitry. Therefore, driving the PH pin high
requires sourcing approximately 2µA. Similarly, driving
the PH pin low requires sinking 2µA. When the PH pin is
floated, it should be bypassed by a 1nF capacitor to GND
6902f
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