MAX3540 Maxim Integrated Products, MAX3540 Datasheet - Page 13
MAX3540
Manufacturer Part Number
MAX3540
Description
Complete Single-Conversion Television Tuner
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX3540.pdf
(16 pages)
www.datasheet4u.com
The TFS[7:0] and TFP[5:0] bits must be reprogrammed
for each channel frequency to optimize performance.
The optimal settings for each channel can be calculated
from the ROM table data using the equations below.
VHF LO filter:
VHF High filter:
UHF filter:
Where:
The MAX3541 includes a broadband IF overload detec-
tor, which provides an indication of the total power pre-
sent at the RF input. The overload-detector output
voltage is compared to a reference voltage and the dif-
ference is amplified. This error signal drives an open-
collector transistor whose collector is connected to the
IFOVLD pin, causing the IFOVLD pin to sink current.
TFP INT 10
TFS INT 10
TFP INT 10
TFS INT 10
f
TFS = decimal value of the optimal TFS[7:0]
TFP = decimal value of the optimal TFP[5:0] setting
LS0, LS1, LP0, LP1, HS0, HS1, HP0, HP1, US0, US1,
TFS 10 (2.4
RF
TFP INT 10
=
=
=
=
= operating frequency in MHz
Complete Single-Conversion Television Tuner
=
setting (Table 9) for the given operating frequency
(Table 10) for the given operating frequency
UP0, and UP1 = the decimal values of the ROM
table coefficients (Table 16).
=
⎡
⎢
⎢
⎢
⎣
⎡
⎢
⎢
⎢
⎣
⎡
⎢
⎢
⎢
⎣
⎡
⎢
⎢
⎢
⎣
⎡
⎢
⎣
[(1.6
[(2.8
[(1.6
⎡
⎢
⎢
⎢
⎣
Interpolating Tracking Filter Coefficients
[(3
+
[(1.6
+
+
+
+
UP0
256
HS0
HP0
LS0
16
US0
16
256
64
______________________________________________________________________________________
+
×
×
×
)
LP0
×
64
0.8)
0.8)
+ −
0.8)
0.6)
(
×
+ −
. 2 6
+ −
+ −
0.4)
+ −
(
(
(
(
. 4 2
+
. 1 4
. 1 5
IF Overload Detector
+ − +
. 8 5
US1
64
( 6
+
+
+
+
HS1
HP1
UP1
16
16
6
×
LS1
4 4
16
LP1
16
0.8 )
×
×
×
×
0.8 )
0 0 .6 ) f
×
0.8 ) f
×
2) f
2
f
) ) f
RF
×
×
×
× ×
×
×
f
RF
RF
RF
RF
RF
10 ]
×
×
×
×
×
10 ]
-3
10 ]
10 ]
10 ]
1
-3
-3
⎤
⎥
⎥
⎥
⎦
0 0
-3
-3
−
-3
⎤
⎥
⎥
⎥
⎦
⎤
⎥
⎥
⎥
⎦
20
⎤
⎥
⎥
⎥
⎦
⎤
⎥
⎥
⎥
⎦
−
⎤
⎥
⎦
−
−
10
20
10
The nominal full-scale current sunk by the IFOVLD pin
is 300μA. The IFOVLD pin requires a 10kΩ pullup resis-
tor to V
The IF overload detector is calibrated at the factory to
attack at 0.6V
band processor must read OD[2:0] from the ROM table
and store it in the IFVOLD register.
Closed-loop RF gain control can be implemented by
connecting the IFOVLD output to the RFAGC input.
Using a 10kΩ pullup resistor on the IFOVLD pin, as
shown in the Typical Application Circuit , results in a
nominal 0.5V to 3V control voltage range.
The MAX3540 frequency synthesizer includes three VCOs
and eight VCO sub-bands to guarantee a 2160MHz to
4400MHz VCO frequency range. The frequency synthesiz-
er also features an additional VCO frequency divider,
which must be programmed to either 4, 8, 16, or 32
through the VDIV[1:0] bits in the VCO register based on
the channel being received. Table 5 describes how the
VDIV[1:0] bits should be programmed for each band of
operation.
To ensure PLL, lock the proper VCO and VCO sub-band
for the channel being received, which must be chosen by
iteratively selecting a VCO and VCO sub-band then read-
ing the LD[2:0] bits to determine if the PLL is locked. Any
reading from 001 to 110 indicates the PLL is locked. If
LD[2:0] reads 000, the PLL is unlocked and the selected
VCO is at the bottom of its tuning range; a lower VCO sub-
band must be selected. If LD[2:0] reads 111, the PLL is
unlocked and the selected VCO is at the top of its tuning
range; a higher VCO sub-band must be selected. The
VCO and VCO sub-band settings should be progressively
increased or decreased until the LD[2:0] reading falls in
the 001 to 110 range.
Due to overlap between VCO sub-band frequencies, it is
possible that multiple VCO settings can be used to tune to
the same channel frequency. System performance at a
given channel should be similar between the various pos-
sible VCO settings, so it is sufficient to select the first VCO
and VCO sub-band that provides lock.
The MAX3540 EV kit can serve as a guide for PCB layout.
Keep RF signal lines as short as possible to minimize
losses and radiation. Use controlled impedance on all
high-frequency traces. The exposed paddle must be sol-
dered evenly to the board’s ground plane for proper
operation. Use abundant vias beneath the exposed pad-
dle for maximum heat dissipation. Use abundant ground
vias between RF traces to minimize undesired coupling.
CC
.
P-P
VCO and VCO Divider Selection
at IFOUT1. Upon power-up, the base-
Closed-Loop RF Gain Control
Layout Considerations
13
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