LTC1264CSW#PBF Linear Technology, LTC1264CSW#PBF Datasheet - Page 6
LTC1264CSW#PBF
Manufacturer Part Number
LTC1264CSW#PBF
Description
IC FILTR BUILDNG BLK HISPD24SOIC
Manufacturer
Linear Technology
Datasheet
1.LTC1264CN.pdf
(16 pages)
Specifications of LTC1264CSW#PBF
Filter Type
Universal Switched Capacitor
Frequency - Cutoff Or Center
250kHz
Number Of Filters
4
Max-order
2nd
Voltage - Supply
±2.37 V ~ 8 V
Mounting Type
Surface Mount
Package / Case
24-SOIC (7.5mm Width)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
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PI FU CTIO S
W
CLK (Pin 18): Clock Input Pin. Any TTL or CMOS clock
source with a square wave output and 50% duty cycle
(±10%) is an adequate clock source for the device. The
power supply for the clock source should not be the filter’s
power supply. The analog ground for the filter should be
connected to clock’s ground at a single point only. Table
1 shows the clock’s low and high level threshold values for
a dual or single supply operation.
Table 1. Clock Source High and Low Threshold Levels
A pulse generator can be used as a clock source provided
the high level on-time is greater than 0.2µs. Sine waves are
not recommended for clock input frequencies less than
100kHz, since excessively slow clock rise or fall times
generate internal clock jitter (maximum clock rise or fall
time ≤ 1µs). The clock signal should be routed from the
right side of the IC package and perpendicular to it to avoid
coupling to any input or output analog signal path. A 200Ω
resistor between clock source and Pin 11 will slow down
the rise and fall times of the clock to further reduce charge
coupling (Figures 1 and 2).
LTC1264
For the definition of filter functions please refer to the
LTC1060 data sheet.
Mode 1
In Mode 1, the ratio of the external clock frequency to the
center frequency of each 2nd order section is internally
fixed at 20:1. Figure 4 illustrates Mode 1 providing 2nd
order notch, lowpass, and bandpass outputs. Mode 1 can
be used to make high order Butterworth lowpass filters; it
can also be used to make low Q notches and for cascading
2nd order bandpass functions tuned at the same center
frequency. Mode 1 is faster than Mode 3.
6
POWER SUPPLY
Dual Supply = ±7.5V
Dual Supply = ±5V
Dual Supply = ±2.5V
Single Supply = 12V
Single Supply = 5V
U
ODES OF OPERATIO
U
U
HIGH LEVEL
≥ 1.45V
≥ 0.73V
≥ 7.80V
≥ 1.45V
≥ 2.18V
U
LOW LEVEL
≤ – 2.0V
≤ 0.5V
≤ 0.5V
≤ 6.5V
≤ 0.5V
HPB/NB, BPB, LPB, LPA, BPA, HPA, HPD, BPD, LPD,
LPC, BPC, HPC/NC (Pins 2, 3, 4, 9, 10, 11, 14, 15, 16,
21, 22, 23): Output Pins. Each 2nd order section of the
LTC1264 has three outputs which typically source 3mA
and sink 1mA. Driving coaxial cables or resistive loads less
than 20k will degrade the total harmonic distortion perfor-
mance of any filter design. When evaluating the distortion
or noise performance of a particular filter design imple-
mented with an LTC1264, the final output of the filter
should be buffered with a wideband noninverting high
slew rate amplifier (Figure 3).
Please refer to the Maximum Frequency of Operation
paragraph under Applications Information for a guide to
the use of capacitor C
Mode 1b
Mode 1b is derived from Mode 1. In Mode 1b (Figure 5) two
additional resistors R5 and R6 are added to alternate the
amount of voltage fed back from the lowpass output into
the input of the SA (SB, SC or SD) switched-capacitor
summer. This allows the filter’s clock-to-center frequency
ratio to be adjusted beyond 20:1. Mode 1b maintains the
speed advantages of Mode 1 and should be considered an
INV B, INV A, INV D, INV C (Pins 1, 12, 13, 24): Inverting
Input Pins. These pins are the high impedance inverting
inputs of internal op amps and they are susceptible to stray
capacitive connections to low impedance signal outputs
and power supply lines.
SB, SA, SD, SC (Pins 5, 8, 17, 20): Summing Input Pins.
The summing pins connections determine the circuit
topology (mode) of each 2nd order section. Please refer to
Modes of Operation.
Figure 3. Wideband Buffer
5k
C
.
–
+
LT1224
1264 F03
1264fb
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