參數(shù)資料
型號: LTC6902IMS#TRPBF
廠商: Linear Technology
文件頁數(shù): 2/16頁
文件大?。?/td> 0K
描述: IC OSC SILICON 20MHZ 10MSOP
標準包裝: 2,500
類型: 振蕩器 - 硅
頻率: 100kHz ~ 20MHz
電源電壓: 2.7 V ~ 5.5 V
電流 - 電源: 2.5mA
工作溫度: -40°C ~ 85°C
封裝/外殼: 10-TFSOP,10-MSOP(0.118",3.00mm 寬)
包裝: 帶卷 (TR)
供應商設備封裝: 10-MSOP
安裝類型: 表面貼裝
LTC6902
10
6902f
THEORY OF OPERATIO
U
by 90 degrees, OUT3 lags OUT2 by 90 degrees and OUT4
lags OUT3 by 90 degrees. The signals are generated by
flip-flops. The output frequency is the programmable
divider’s output further divided 4 (M = 4).
The multiphase mode is determined by the state of the PH
input (Pin 3). Tie the PH pin to GND or drive it below 0.5V
to select the 2-phase mode. The PH pin may be floated or
driven to midsupply to select the 3-phase mode. The
4-phase mode is selected by tying the PH pin to V+ or
driving it to within 0.4V of V+.
The CMOS output drivers have an ON resistance that is
typically less than 100
. In the ÷1 (high frequency) mode,
the rise and fall times are typically 7ns with a 5V supply and
11ns with a 3V supply. These transition times maintain a
clean square wave at 10MHz (20MHz at 5V supply). In the
÷10 and÷100 modes, where the output frequency is much
lower, slew rate control circuitry in the output driver in-
creases the rise/fall times to typically 14ns for a 5V supply
and 19ns for a 3V supply. The reduced slew rate lowers EMI
(electromagnetic interference) and supply bounce.
Spread Spectrum Frequency Modulation
The LTC6902 provides the additional feature of spread
spectrum frequency modulation (SSFM). The oscillator’s
frequency is modulated by a pseudorandom noise (PRN)
signal to spread the oscillator’s energy over a wide fre-
quency band. This spreading decreases the peak electro-
magnetic radiation levels and improves electromagnetic
compatibility (EMC) performance.
The amount of frequency spreading is determined by the
external resistor RMOD and the voltage between the V+ and
MOD pins (V+ – VMOD). Unlike the stationary SET pin
voltage (VSET), the MOD pin voltage (VMOD) is a dynamic
signal generated by a multiplying digital to analog con-
verter (MDAC) referenced to VSET. Referencing to VSET
negates errors due to variations of the VSET voltage and
locks the two voltages together. The VMOD voltage is the
VSET voltage scaled by one fifth and multiplied by the
digital code sent to the MDAC from the pseudorandom
binary sequence (PRBS) generator. VMOD varies in a
pseudorandom noise-like manner. The (V+ – VMOD) volt-
age is 0V minimum and maximally one fifth (20%) of
(V+ – VSET).
Referencing VMOD to VSET allows the ratio of RSET to
RMOD to determine the amount of frequency spreading.
Consider the case when RSET is equal to RMOD. Here,
when the (V+ – VMOD) voltage is at its minimum of 0V,
IMOD = 0A, IMASTER = ISET and the master oscillator is at
its maximum frequency (fMAX) which is the fOUT fre-
quency set by the RSET resistor. Furthermore, when the
(V+ – VMOD) voltage is at its maximum of 20% of (V+
VSET), IMOD = 0.2 ISET, IMASTER = 0.8 ISET and the
master oscillator is at its minimum frequency (fMIN)
which is 80% of the fOSC frequency set by the RSET
resistor. The general formula for the amount of frequency
spreading is below:
Frequency Spreading (in %) = 20
RSET
RMOD
where frequency spreading is defined as:
Frequency Spreading (in %) = 100
f
MAX
–fMIN
The design procedure is to first choose the RSET resistor
value to set fMAX (fOUT) and then choose the RMOD resistor
value to set the amount of frequency spreading desired.
Note that the frequency is always modulated to a lower
value. This is often referred to as a down spread signal.
To disable the SSFM, connect the MOD pin to ground.
Grounding the MOD pin disables the modulation and shuts
down the modulation circuitry. While leaving the MOD pin
open, RMOD = ∞, gives a frequency spreading of 0%, this
is not a good method of disabling the modulation. The
open pin is susceptible to external noise coupling that can
affect the output frequency accuracy. Grounding the MOD
pin is the best way to disable the SSFM.
As stated previously the modulating waveform is a pseu-
dorandom noise-like waveform. The pseudorandom signal
is generated by a linear feedback shift register that is 9 bits
long. The pseudorandom sequence will repeat every 512
(29) shift register clock cycles. The bottom seven bits of the
shift register are sent in parallel to the MDAC which pro-
duces the VMOD voltage. Being a digitally generated signal,
the output is not a perfectly smooth waveform but consists
of 128 (27) discrete steps that change every shift register
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