Max3541, Complete single-conversion television tuner, Application information – Rainbow Electronics MAX3541 User Manual

MAX3541

Application Information

RF Inputs

The MAX3541 features separate UHF and VHF inputs
that are matched to 75Ω. Both inputs require a DC-
blocking capacitor. The active inputs are selected by
the input registers. In addition, the input registers
enable or disable the lowpass filter, which can be used
when the VHF input is selected. For the 47MHz to
68MHz, select the VHF_IN with the LPF filter enabled
(INPT = 00). For 174MHz to 230MHz, select VHF_IN
with LPF disabled (INPT = 01). For 470MHz to 862MHz,
select UHF_IN (INPT = 10).

RF Gain Control

The gain of the RF low-noise amplifier can be adjusted
over a typical range of 45dB with the RFAGC pin. The
RFAGC input accepts a DC voltage from 0.5V to 3V,
with 3V providing maximum gain. This pin can be con-
trolled with the IF power-detector output to form a
closed RF gain-control loop. See the

Closed-Loop RF

Gain Control

section for more information.

RF Tracking Filter

The MAX3541 includes a programmable tracking filter
for each band of operation to optimize rejection of
out-of-band interference while minimizing insertion

loss for the desired received signal. The center fre-
quency of each tracking filter is selected by a
switched-capacitor array that is programmed by the
TFS[7:0] bits in the Tracking Filter Series Capacitor
register and the TFP[5:0] bits in the Tracking Filter
Parallel Cap register.

Optimal tracking filter settings for each channel varies
from part to part due to process variations. To accom-
modate part-to-part variations, each part is factory cal-
ibrated by Maxim. During calibration, the y-intercept
and slope for the series and parallel tracking capacitor
arrays is calculated and written into an internal ROM
table. The user must read the ROM table upon power-
up and store the data in local memory (8 bytes total) to
calculate the optimal TFS[7:0] and TFP[5:0] settings
for each channel. Table 16 shows the address and
bits for each ROM table entry. See the

Interpolating

Tracking Filter Coefficients

section for more informa-

tion on how to calculate the required values.

Reading the ROM Table

Each ROM table entry must be read using a two-step
process. First, the address of the ROM bits to be read
must be programmed into the TFA[3:0] bits in the
Tracking Filter ROM Address register (Table 11).

Complete Single-Conversion
Television Tuner

16

______________________________________________________________________________________

MSB

LSB

DATA BYTE

DESCRIPTION ADDRESS

D7

D6

D5

D4

D3

D2

D1

D0

Reserved

0x0

OD2

OD1

OD0

X

X

X

X

X

VHF Series
Y-Intercept

0x1

VS0[7]

VS0[6]

VS0[5]

VS0[4]

VS0[3]

VS0[2]

VS0[1]

VS0[0]

VHF Series

Slope

0x2

VS1[7]

VS1[6]

VS1[5]

VS1[4]

VS1[3]

VS1[2]

VS1[1]

VS1[0]

VHF Parallel

Y-Intercept

0x3

VP0[7]

VP0[6]

VP0[5]

VP0[4]

VP0[3]

VP0[2]

VP0[1]

VP0[0]

VHF Parallel

Slope

0x4

VP1[7]

VP1[6]

VP1[5]

VP1[4]

VP1[3]

VP1[2]

VP1[1]

VP1[0]

UHF Series

Y-Intercept

0x5

US0[7]

US0[6]

US0[5]

US0[4]

US0[3]

US0[2]

US0[1]

US0[0]

UHF Series

Slope

0x6

US1[7]

US1[6]

US1[5]

US1[4]

US1[3]

US1[2]

US1[1]

US1[0]

UHF Parallel

Y-Intercept

0x7

UP0[7]

UP0[6]

UP0[5]

UP0[4]

UP0[3]

UP0[2]

UP0[1]

UP0[0]

UHF Parallel

Slope

0x8

UP1[7]

UP1[6]

UP1[5]

UP1[4]

UP1[3]

UP1[2]

UP1[1]

UP1[0]

Table 16. ROM Table