LTC1562CG#PBF Linear Technology, LTC1562CG#PBF Datasheet - Page 10

LTC1562CG#PBF

Manufacturer Part Number

LTC1562CG#PBF

Description

IC FILTER UNIV RC QUAD LN 20SSOP

Manufacturer

Linear Technology

Datasheet

1.LTC1562CGPBF.pdf (28 pages)

Specifications of LTC1562CG#PBF

Filter Type

Universal, Continuous-Time

Frequency - Cutoff Or Center

150kHz

Number Of Filters

Max-order

8th

Voltage - Supply

4.75 V ~ 10.5 V, ±4.75 V ~ 5.25 V

Mounting Type

Surface Mount

Package / Case

20-SSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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APPLICATIONS

LTC1562

Because 2nd order sections with Q

peaks near f

thumb:

The following situations are convenient because the

relative swing issue does not arise. The unused output’s

swing is naturally the smaller of the two in these cases:

The LTC1562-2, a higher frequency derivative of the

LTC1562, has a design center f

100kHz in the LTC1562. The rules summarized above

apply to the LTC1562-2 but with 200kHz replacing the

100kHz limits. Thus, an LTC1562-2 lowpass filter section

with f

condition of the unused output carrying the smaller signal

swing.

Low Level or Wide Range Input Signals

The LTC1562 contains a built-in capability for low noise

amplification of low level signals. The Z

each 2nd order section controls the block’s gain. When set

for unity passband gain, a 2nd order section can deliver an

output signal more than 100dB above the noise level. If low

Lowpass response (resistor input, V2 output, Figure 5)

with f

Bandpass response (capacitor input, V2 output, Figure

6b) with f

Bandpass response (resistor input, V1 output, Figure

6a) with f

Highpass response (capacitor input, V1 output, Figure

7) with f

< 100kHz

> 100kHz

below 200kHz automatically satisfies the desirable

Figure 8. 100kHz, Q = 0.7 Lowpass Circuit for

Distortion vs Loading Test

10k

< 100kHz

> 100kHz

INV

, the gain ratio above implies some rules of

> 100kHz

< 100kHz

6.98k

1/4 LTC1562

2nd ORDER

V2 tends to have the larger swing

V1 tends to have the larger swing.

INFORMATION

10k

30pF

of 200kHz compared to

(EXTERNAL

LOAD RESISTANCE)

1562 F08

1 have response

OUT

impedance in

level inputs require further dynamic range, reducing the

value of Z

referred noise. This feature can increase the SNR for low

level signals. Varying or switching Z

way to effect automatic gain control (AGC). From a system

viewpoint, this technique boosts the ratio of maximum

signal to minimum noise, for a typical 2nd order lowpass

response (Q = 1, f

Input Voltages Beyond the Power Supplies

Properly used, the LTC1562 can accommodate input

voltage excursions well beyond its supply voltage. This

requires care in design but can be useful, for example,

when large out-of-band interference is to be removed from

a smaller desired signal. The flexibility for different input

voltages arises because the INV inputs are at virtual

ground potential, like the inverting input of an op amp with

negative feedback. The LTC1562 fundamentally responds

to input current and the external voltage V

across the external impedance Z

To accept beyond-the-supply input voltages, it is impor-

tant to keep the LTC1562 powered on, not in shutdown

mode, and to avoid saturating the V1 or V2 output of the

2nd order section that receives the input. If any of these

conditions is violated, the INV input will depart from a

virtual ground, leading to an overload condition whose

recovery timing depends on circuit details. In the event

that this overload drives the INV input beyond the supply

voltages, the LTC1562 could be damaged.

The most subtle part of preventing overload is to consider

the possible input signals or spectra and take care that

none of them can drive either V1 or V2 to the supply limits.

Note that neither output can be allowed to saturate, even

if it is not used as the signal output. If necessary the

passband gain can be reduced (by increasing the imped-

ance of Z

The final issue to be addressed with beyond-the-supply

inputs is current and voltage limits. Current entering the

virtual ground INV input flows eventually through the

output circuitry that drives V1 and V2. The input current

magnitude ( V

design to less than 1mA for good distortion performance.

On the other hand, the input voltage V

boosts the signal gain while reducing the input

in Figure 3) to reduce output swings.

/ Z

= 100kHz), to 118dB.

in Figure 3) should be limited by

in Figure 3.

appears across the

is also an efficient

appears only

1562fa

LTC1562CG#PBF Linear Technology, LTC1562CG#PBF Datasheet - Page 10

LTC1562CG#PBF

Specifications of LTC1562CG#PBF

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