LTC6605-10 Linear Technology, LTC6605-10 Datasheet - Page 11

LTC6605-10

Manufacturer Part Number

LTC6605-10

Description

Dual Matched 10MHz Filter

Manufacturer

Linear Technology

Datasheet

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APPLICATIONS INFORMATION

Setting the passband gain (GAIN = R2/R1) only requires

choosing a value for R1, since R2 is a ﬁ xed internal 400Ω.

Therefore, the following three gains can be easily conﬁ gured

without external components:

Table 1. Conﬁ guring the Passband Gain Without External

Components

The resonant frequency, f

therefore independent of the gain. For any LTC6605-10

ﬁ lter conﬁ guration that conforms to Figure 3, the f

ﬁ xed at 11.36MHz. The f

combination of f

by the selection of R4.

Setting the f

Using an external resistor (R

justable in the range of 9.7MHz to 14.0MHz (see Figure 3).

The minimum f

maximum f

gain peak less than 1dB.

Table 2. R

R1 = 400Ω, R4A = R4B = 100Ω

GAIN

(V/V)

–3dB

10.5

11.5

12.5

13.5

9.7

(MHz)

EXT

GAIN (dB)

–3dB

Selection GAIN = 1,

–3dB

is arbitrarily set for a maximum passband

and Q. For any speciﬁ c gain, Q is adjusted

Frequency

13.3

52.3

64.9

80.6

EXT

5.11

22.1

31.6

41.2

97.6

is set for R

R1 (Ω)

400

100

–3dB

EXT

, is independent of R1, and

frequency depends on the

Drive the 400Ω Resistors. Tie

the 100Ω Resisters Together.

Drive the 100Ω Resistors.

Drive the 400Ω and 100Ω

Resistors in Parallel.

), the f

EXT

INPUT PINS TO USE

equal to 0Ω and the

–3dB

frequency is ad-

Figure 4 shows three filter configurations with an

ﬁ lters have a Q = 0.61, which is an almost ideal Bessel

characteristic with linear phase.

Figure 5 shows three ﬁ lter conﬁ gurations that use some

external resistors, and are tailored for a very ﬂ at ±0.7dB

11.2MHz passband.

Many other conﬁ gurations are possible by using the equa-

tions in Figure 3. For example, external resistors can be

added to modify the value of R1 to conﬁ gure GAIN ≠ 1. For

an even more ﬂ exible ﬁ lter IC with similar performance,

consider the LTC6601.

BIAS Pin

Each channel of the LTC6605-10 has a BIAS pin whose

function is to tailor both performance and power. The BIAS

pin can be modeled as a voltage source whose potential

is 1.15V above the V

equivalent resistance of 150k. This three-state pin has ﬁ xed

logic levels relative to V

table), and can be driven by any external source that can

drive the BIAS pin’s equivalent input impedance.

If the BIAS pin is tied to the positive supply, the part is

in a fully active state conﬁ gured for highest performance

(lowest noise and lowest distortion).

If the BIAS pin is ﬂ oated (left unconnected), the part is in a

fully active state, but with ampliﬁ er currents reduced and

performance scaled back to preserve power consumption.

Care should be taken to limit external leakage currents

to this pin to under 1μA to avoid putting the part in an

unexpected state.

If the BIAS pin is tied to the most negative supply (V

the part is in a low power shutdown mode with ampliﬁ er

outputs disabled. In shutdown, all internal biasing current

sources are shut off, and the output pins each appear as

open collectors with a non-linear capacitor in parallel and

steering diodes to either supply. Because of the non-linear

capacitance, the outputs can still sink and source small

amounts of transient current if exposed to signiﬁ cant

voltage transients. Using this function to wire-OR outputs

together is not recommended.

–3dB

= 9.7MHz, without any external components. These

–

supply and that has a Thevenin

(see the Electrical Characteristics

LTC6605-10

www.DataSheet4U.com

660510f

–

LTC6605-10 Linear Technology, LTC6605-10 Datasheet - Page 11

LTC6605-10

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