CS5466-ISZ(2004) 查看數據表(PDF) - Cirrus Logic
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CS5466-ISZ Datasheet PDF : 16 Pages
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CS5466
Example:
For a given application, assuming a 50 Hz line frequen-
cy and a purely resistive load (unity power factor), the
following configuration is used:
– FREQ2:0 = 3 ∴ FREQmax = 2 Hz
– IGAIN1:0 = 2 ∴ IGAIN = 100
– VREFIN = VREFOUT = 2.5 V
In this configuration the maximum sine wave that can be
applied is 250 mVp on the voltage channel and 25 mVp
on the current channel. Using the above formula, the
output frequency of E1 or E2 is calculated:
.25Vp * 10 * .025Vp * 100 * 2Hz
2 * 2 *2.5V 2
= 1Hz
With maximum pure sinusoidal input signals, the fre-
quency of E1 or E2 is half the absolute maximum fre-
quency set with FREQ2:0.
To calculate the frequency of FOUT for the example
above, assume FREQ2 = 0.
FOUT = 2048*(E1+E2) = 2048*(2Hz) = 4096Hz
5.4 Energy Direction Indicator
The NEG pin indicates the sign of the calculated aver-
age power. If negative average power is detected the
NEG output pin will become active high and will remain
active high until positive average power is detected. The
NEG pin is valid at least 250ns prior to any assertion of
E1 or E2, and FOUT, to indicate the sign of a given en-
ergy output. The NEG pin is updated at a rate of 10 Hz
at MCLK = 4.096 MHz.
5.5 Power-on Reset
Upon powering up, the digital circuitry is held in reset
until the analog voltage reaches 4.0 V. At that time, an
eight XIN clock period delay is enabled to allow the os-
cillator to stabilize. The CS5466 will then initialize. The
device reads the control pins IGAIN1:0, FREQ2:0 and
HPF, and begins performing energy measurements.
5.6 Oscillator Characteristics
XIN and XOUT are the input and output of an inverting
amplifier which can provide oscillation and can be con-
figured as an on-chip oscillator, as shown in Figure 3.
The oscillator circuit is designed to work with a quartz
crystal. To reduce circuit cost, two load capacitors C1
XOUT
XIN
DGND
C1
Oscillator
Circuit
C2
C1 = C2 = 22 pF
Figure 3. Oscillator Connection
and C2 are integrated in the device, one between XIN
and DGND, one between XOUT and DGND. Lead
lengths should be minimized to reduce stray capaci-
tance. To drive the device from an external clock
source, XOUT should be left unconnected while XIN is
driven by the external circuitry. There is an amplifier be-
tween XIN and the digital section which provides CMOS
level signals. This amplifier works with sinusoidal inputs
so there are no problems with slow edge times.
5.7 Basic Application Circuit
Figure 4 shows the CS5466 configured to measure
power in a single-phase 2-wire system while operating
in a single supply configuration. In this diagram, a shunt
resistor is used to sense the line current and a voltage
divider is used to sense the line voltage. In this type of
shunt resistor configuration, the common-mode level of
the CS5466 must be referenced to the line side of the
power line. This means that the common-mode poten-
tial of the CS5466 will track the high voltage levels, as
well as low voltage levels, with respect to earth ground
potential.
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