LTC1164-7CS Просмотр технического описания (PDF) - Linear Technology
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LTC1164-7CS Datasheet PDF : 12 Pages
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LTC1164-7
PI FU CTIO S
External Connection Pins (7, 14)
Pins 7 and 14 should be connected together. In a printed
circuit board the connection should be done under the IC
package through a short trace surrounded by the analog
ground plane.
NC Pins (1, 8, 13)
Pins 1, 8 and 13 are not connected to any internal circuit
point on the device and should be preferably tied to analog
ground.
APPLICATI S I FOR ATIO
Clock Feedthrough
Clock feedthrough is defined as the RMS value of the clock
frequency and its harmonics that are present at the filter’s
output pin (9). The clock feedthrough is tested with the
input pin (2) grounded and it depends on PC board layout
and on the value of the power supplies. With proper layout
techniques the values of the clock feedthrough are shown
in Table 8.
Table 8. Clock Feedthrough
VS
Single 5V
±5V
±7.5V
50:1
70µVRMS
100µVRMS
120µVRMS
100:1
70µVRMS
200µVRMS
500µVRMS
Note: The clock feedthrough at Single 5V is imbedded in the
wideband noise of the filter. The clock waveform is a square wave.
Any parasitic switching transients during the rise and fall
edges of the incoming clock are not part of the clock
feedthrough specifications. Switching transients have fre-
quency contents much higher than the applied clock; their
amplitude strongly depends on scope probing techniques
as well as grounding and power supply bypassing. The
clock feedthrough, if bothersome, can be greatly reduced
by adding a simple R/C lowpass network at the output of
the filter pin (9). This R/C will completely eliminate any
switching transients.
Wideband Noise
The wideband noise of the filter is the total RMS value of
the device’s noise spectral density and it is used to
determine the operating signal-to-noise ratio. Most of its
frequency contents lie within the filter’s passband and
cannot be reduced with post filtering. For instance, the
LTC1164-7 wideband noise at ±5V supply is 105µVRMS,
95µVRMS of which have frequency contents from DC up to
the filter’s cutoff frequency. The total wideband noise
(µVRMS) is nearly independent of the value of the clock.
The clock feedthrough specifications are not part of the
wideband noise.
Speed Limitations
The LT1164-7 optimizes AC performance vs power con-
sumption. To avoid op amp slew rate limiting at maximum
clock frequencies, the signal amplitude should be kept
below a specified level as shown in Table 9.
Table 9. Maximum VIN vs VS and Clock
POWER SUPPLY
± 7.5V
MAXIMUM fCLK
1MHz
± 5V
1MHz
Single 5V
1MHz
MAXIMUM VIN
2.0VRMS (fIN > 20kHz)
0.7VRMS (fIN > 250kHz)
1.4VRMS (fIN > 20kHz)
0.5VRMS (fIN > 100kHz)
0.5VRMS (fIN > 100kHz)
Table 10. Transient Response of LTC Lowpass Filters
LOWPASS FILTER
DELAY
TIME*
(SEC)
RISE SETTLING OVER-
TIME** TIME*** SHOOT
(SEC) (SEC) (%)
LTC1064-3 Bessel
LTC1164-5 Bessel
LTC1164-6 Bessel
0.50/fC 0.34/fC 0.80/fC 0.5
0.43/fC 0.34/fC 0.85/fC 0
0.43/fC 0.34/fC 1.15/fC 1
LTC1264-7 Linear Phase
LTC1164-7 Linear Phase
LTC1064-7 Linear Phase
1.15/fC 0.36/fC 2.05/fC 5
1.20/fC 0.39/fC 2.20/fC 5
1.20/fC 0.39/fC 2.20/fC 5
LTC1164-5 Butterworth
0.80/fC 0.48/fC 2.40/fC 11
LTC1164-6 Elliptic
LTC1064-4 Elliptic
LTC1064-1 Elliptic
0.85/fC 0.54/fC 4.30/fC 18
0.90/fC 0.54/fC 4.50/fC 20
0.85/fC 0.54/fC 6.50/fC 20
* To 50% ±5%, ** 10% to 90% ±5%, *** To 1% ±0.5%
10
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