參數(shù)資料
型號: MC74HC4060ANG
廠商: ON Semiconductor
文件頁數(shù): 13/13頁
文件大?。?/td> 0K
描述: IC COUNTER 14STAGE BIN 16-DIP
標(biāo)準(zhǔn)包裝: 500
系列: 74HC
邏輯類型: 二進(jìn)制計(jì)數(shù)器
方向:
元件數(shù): 1
每個元件的位元數(shù): 14
復(fù)位: 異步
計(jì)數(shù)速率: 50MHz
觸發(fā)器類型: 負(fù)邊沿
電源電壓: 2 V ~ 6 V
工作溫度: -55°C ~ 125°C
安裝類型: 通孔
封裝/外殼: 16-DIP(0.300",7.62mm)
供應(yīng)商設(shè)備封裝: 16-DIP
包裝: 管件
產(chǎn)品目錄頁面: 1123 (CN2011-ZH PDF)
其它名稱: MC74HC4060ANGOS
MC74HC4060A
http://onsemi.com
9
DESIGN PROCEDURES
The following procedure applies for oscillators operating below 2MHz where Z is a resistor R1. Above 2MHz, additional
impedance elements should be considered: Cout and Ca of the amp, feedback resistor Rf, and amplifier phase shift error from
180
°C.
Step 1: Calculate the equivalent series circuit of the crystal at the frequency of oscillation.
Ze +
* jXCo(Rs ) jXLs * jXCs)
* jXCo ) Rs ) jXLs * jXCs
+ Re ) jXe
Reactance jXe should be positive, indicating that the crystal is operating as an inductive reactance at the oscillation frequency.
The maximum Rs for the crystal should be used in the equation.
Step 2: Determine
β, the attenuation, of the feedback network. For a closed-loop gain of 2,Aνβ = 2,β = 2/Aν where Aν is
the gain of the HC4060A amplifier.
Step 3: Determine the manufacturer’s loading capacitance. For example: A manufacturer may specify an external load
capacitance of 32pF at the required frequency.
Step 4: Determine the required Q of the system, and calculate Rload, For example, a manufacturer specifies a crystal Q of
100,000. In-circuit Q is arbitrarily set at 20% below crystal Q or 80,000. Then Rload = (2πfoLS/Q) Rs where Ls and Rs are
crystal parameters.
Step 5: Simultaneously solve, using a computer,
b +
XC @ XC2
R @ Re ) XC2 (Xe * XC)
( Eq 1
(with feedback phase shift = 180°)
Xe + XC2 ) XC )
ReXC2
R
+ XCload
( Eq 2
(where the loading capacitor is an external load, not including Co)
Rload +
RXCoXC2 [(XC ) XC2)(XC ) XCo) * XC(XC ) XCo ) XC2)]
X2C2(XC ) XCo)2 ) R2(XC ) XCo ) XC2)2
( Eq 3
Here R = Rout + R1. Rout is amp output resistance, R1 is Z. The C corresponding to XC is given by C = C1 + Cin.
Alternately, pick a value for R1 (i.e, let R1 = RS). Solve Equations 1 and 2 for C1 and C2. Use Equation 3 and the fact that
Q = 2
πfoLs/(Rs + Rload) to find in-circuit Q. If Q is not satisfactory pick another value for R1 and repeat the procedure.
CHOOSING R1
Power is dissipated in the effective series resistance of the
crystal. The drive level specified by the crystal manufacturer
is the maximum stress that a crystal can withstand without
damage or excessive shift in frequency. R1 limits the drive
level.
To verify that the maximum dc supply voltage does not
overdrive the crystal, monitor the output frequency as a
function of voltage at Osc Out 2 (Pin 9). The frequency
should increase very slightly as the dc supply voltage is
increased. An overdriven crystal will decrease in frequency
or become unstable with an increase in supply voltage. The
operating supply voltage must be reduced or R1 must be
increased in value if the overdriven condition exists. The
user should note that the oscillator start-up time is
proportional to the value of R1.
SELECTING Rf
The feedback resistor, Rf, typically ranges up to 20MW. Rf
determines the gain and bandwidth of the amplifier. Proper
bandwidth insures oscillation at the correct frequency plus
roll-off to minimize gain at undesirable frequencies, such as
the first overtone. Rf must be large enough so as to not affect
the phase of the feedback network in an appreciable manner.
ACKNOWLEDGEMENTS AND RECOMMENDED
REFERENCES
The following publications were used in preparing this
data sheet and are hereby acknowledged and recommended
for reading:
Technical Note TN-24, Statek Corp.
Technical Note TN-7, Statek Corp.
D. Babin, “Designing Crystal Oscillators”, Machine
Design, March 7, 1985.
D. Babin, “Guidelines for Crystal Oscillator Design”,
Machine Design, April 25, 1985.
ALSO RECOMMENDED FOR READING:
E. Hafner, “The Piezoelectric Crystal Unit-Definitions
and Method of Measurement”, Proc. IEEE, Vol. 57, No. 2,
Feb., 1969.
D. Kemper, L. Rosine, “Quartz Crystals for Frequency
Control”, Electro-Technology, June, 1969.
P. J. Ottowitz, “A Guide to Crystal Selection”, Electronic
Design, May, 1966.
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