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ISL55210 Datasheet, PDF (15/18 Pages) Intersil Corporation – Wideband, Low-Power, Ultra-High Dynamic Range Differential Amplifier
ISL55210
2. AC coupled, higher frequency range interstage filter design.
This design replaces the Rt resistors in Figure 34 with large
valued inductors and implements the filter just using shunt
resistors at the end of the RLC filter (here, that is just the ADC
internal differential Rin). In this case, the ADC VCM can be tied
to the centerpoint of the bias path inductors (very much like a
Bias-T) to provide the common mode voltage and current to
the ADC inputs. These bias inductors do limit the low
frequency end of the operation where, with 1µH values,
operation from 10MHz to 200MHz is supported using the
approach of Figure 35.
3. AC coupled with output side transformer. This design includes
an output side transformer, very similar to ADC
characterization circuits. This approach allows a slightly lower
amplifier output swing (if N > 1 is used) and very easy 2nd
order low pass responses to be implemented. It also provides
the ICM and VCM bias to the ADC through the transformer
centertap. This approach would be attractive for higher ADC
input swing targets and more aggressive noise power
bandwidth control needs.
4. DC coupled with ADC VCM and ICM provided from the
amplifier. Here, DC to very high frequency interstage low pass
filters can be provided. Again, the RS element must be low to
reduce the IR drop from the VCM of the converter, which now
shows up on the output of the ISL55210, to the ADC input
pins. In this case, split supplies are required to satisfy the
amplifier output and input common mode range limits
discussed earlier.
Rf
ADC
+3.3V
ISL55210
Rs
Vcm1
1.2V
Ls
Icm
IN+
Cb
Rt
Ct
Vb
Ri n
Ci n
Rs
Cb
Ls
Rt
Ct
IN-
Rf
Icm
Rt R>tR>sRs
Vcm2 = 0.535
or 1V
vB –VIbcm− I×cmRt×=R Vt c=mV2cm 2
FIGURE 34. AC COUPLED, BROADBAND RLC INTERSTAGE FILTER
DESIGN
RF
ADC
+3.3V
ISL55210
VCM1
1.2V
RS
Cb
LS
ICM
IN+
LP
Ct
RT
Cin
Rin
RS
Cb
LS
LP
Ct
IN-
RF
ICM
VCM2 = 0.535
or 1V
Lp>>Ls
FIGURE 35. AC COUPLED, HIGHER FREQUENCY RLC FILTER DESIGN
RF
ADC
+3.3V
ISL55210
VCM1
1.2V
RS
Cb
1:n
ICM
Rt
Ct
IN+
Cin
Rin
RS
Cb
Ct
Rt
IN-
RF
Rt ≤30Ω
ICM
2ICM
VCM2 = 0.535
or 1V
FIGURE 36. AC COUPLED WITH OUTPUT SIDE TRANSFORMER
Rf
+3.0V
ISL55210
Vcm
-1.1V
Rf
Ls
Rs
Rs
Ls
Rs ≤ 30Ω
ADC
Icm
IN+
Ct
Rt
Ct
Icm
Cin
Rin
IN-
Vcm = 0.535V
or 1V
FIGURE 37. DC COUPLED WITH A COMMON VCM VOLTAGE FROM
THE ADC
15
FN7811.0
March 2, 2011