SANYO LV24100LP

Ordering number : ENA0194A
LV24100LP
Bi-CMOS IC
FM and AM Tuner IC for Small Portable Equipment
Overview
The LV24100LP is an innovative FM/AM tuner IC that is capable of configuring an FM/AM radio with just one external
component. Since all the FM/AM radio functions are incorporated into a compact VQLP package with dimensions of
only 5mm×5mm×0.8mm, this IC can easily incorporate FM/AM tuner function into mobile phones, PDA, MP3 player
and other small mobile sets where space is always at a premium.
Functions
• FM Tuner
• AM Tuner
• MPX stereo decoder
• Tuning
Features
• No external components required except for an AM bar antenna.
• No alignments necessary
• Improved selectivity with low FMIF frequency (110kHz)
• Built-in adjacent channel interference total reduction (no 114kHz, no 190kHz)
• New tuning system
• Very high sensitivity reception with low-noise mixer input circuit
• Built-in low power standby mode eliminates the need for a power switch circuit.
• Composite output for RDS applications
• 3-wire bus interface (data, clock, and NR-W) featured
• Digital AFC function provided
• Soft muting and stereo blend functions (8-step software control)
• Support for manual search, automatic search, and auto preset
• Support for reception of worldwide bands
(reception of all bands in Japan, Europe, and the US enabled by changes in the program.)
Any and all SANYO Semiconductor Co.,Ltd. products described or contained herein are, with regard to
"standard application", intended for the use as general electronics equipment (home appliances, AV equipment,
communication device, office equipment, industrial equipment etc.). The products mentioned herein shall not be
intended for use for any "special application" (medical equipment whose purpose is to sustain life, aerospace
instrument, nuclear control device, burning appliances, transportation machine, traffic signal system, safety
equipment etc.) that shall require extremely high level of reliability and can directly threaten human lives in case
of failure or malfunction of the product or may cause harm to human bodies, nor shall they grant any guarantee
thereof. If you should intend to use our products for applications outside the standard applications of our
customer who is considering such use and/or outside the scope of our intended standard applications, please
consult with us prior to the intended use. If there is no consultation or inquiry before the intended use, our
customer shall be solely responsible for the use.
Specifications of any and all SANYO Semiconductor Co.,Ltd. products described or contained herein stipulate
the performance, characteristics, and functions of the described products in the independent state, and are not
guarantees of the performance, characteristics, and functions of the described products as mounted in the
customer' s products or equipment. To verify symptoms and states that cannot be evaluated in an independent
device, the customer should always evaluate and test devices mounted in the customer' s products or
equipment.
N2107 TI IM 20060801-S00001 No.A0194-1/18
LV24100LP
Specifications
Maximum Ratings at Ta = 25°C
Parameter
Symbol
Conditions
Ratings
Unit
Maximum supply voltage
VCC max
Analog block supply voltage
VDD max
Digital block supply voltage
Digital input voltage
VIN1 max
Clock, Data, NR_W
VDD+0.3
V
VIN2 max
External_clk_in
VDD+0.3
V
Allowable power dissipation
Pd max
Ta≤70°C, Mounted on a specified board *
5.0
V
4.5
V
140
mW
Operating temperature
Topr
-20 to +70
°C
Storage temperature
Tstg
-40 to +125
°C
Note: Mounted on a specified board: 40mm×50mm×0.8mm, glass epoxy
Operating Condition at Ta = 25°C
Parameter
Recommended supply voltage
Symbol
VCC
Ratings
Unit
3.0
V
Digital block supply voltage
3.0
V
VCC op
3.0 to 4.8
V
VDD op
3.0 to 4.0
V
VIO op
1.8 to 4.0
V
VDD
Operating supply voltage range
Conditions
Analog block supply voltage
Interface voltage
Note: The VIO application voltage must be either equivalent to VDD or the VDD value or less. (VIO ≤ VDD)
Interface Block Allowable Operation Range at Ta = -20 to +70°C, VIO = 3.0V, VSS = 0V
Parameter
Symbol
Ratings
Conditions
min
Supply voltage
VDD
Digital block input
VIH
VIL
Low level input voltage range
Digital block output
IOL
Output current at Low level
VOL
Output voltage at Low level IOL=2mA
fclk
(Pin29) clock frequency for 3wire_bus
Clock input operating frequency
External clock operating frequency
fclk_ext
External clock operating voltage
Vclk_ext
High level input voltage range
(Pin31) clock frequency for external input
(Pin31) clock voltage for external input
typ
Unit
max
2.5
4.0
V
0.7VDD
VDD
V
0
0.6
V
2.0
mA
0.6
V
0.7
MHz
32k
14M
Hz
0.7VDD
VDD
V
Note: External clock input (pin31) allows also input of the sine wave signal. Frequency deviation is need 250ppm.
No.A0194-2/18
LV24100LP
Operating Characteristics at Ta=25°C, VCC=3.0V, VDD=3.0V, VIO=3.0V, VSS=0V, Soft Mute/Soft Stereo=off,
with the specified test circuit.
Output level setting means control register Block 2, Register 07h Bit 6(VOLSH)=0, Register 09h Bit 0 (nAUBST) =0.
Parameter
Symbol
Ratings
Conditions
min
Current drain (in operation)
ICCA_FM
Measurement at pin 23 with FM 60dBμV
monaural input of the analog section.
ICCA_AM
Measurement at pin 23 with AM 80dBμV input
of the analog section.
ICCD
Measurement at pins 27 and 40 with
FM 60dBμV input in the digital block.
Current drain (in standby)
ICCA_stb
14
17
9
12
15
0.1
0.5
0.8
3
30
3
30
Measurement at pin 23 in the standby mode of
F_range
In the PCB mounting conditions
mA
μA
Measurement at pins 27 and 40 in the standby
mode of the digital block.
FM receive band
Unit
max
11
the analog block.
ICCD_stb
typ
76
108
MHz
FM receiving characteristics MONO
: fc=80MHz, fm=1kHz, 22.5kHz dev. VIN=60dBμV, Audio filter=IHF_BPF
3dB sensitivity
-3dB LS
22.5kHz dev. output standard, input -3dB.
Practical sensitivity 1
QS1
Input level with S/N=30dB
Practical sensitivity 2 (Reference)
QS2
Input level with S/N=26dB
Demodulator output
VO
Pin11 output
50
5
11
dBμV
10
16
dBμV
70
110
mV
0
2
dB
μV
1.25
Channel balance
CB
Pin11/pin12 output
-2
Signal-to-noise ratio
S/N
Pin11 output
48
58
dB
Total harmonic distortion 1 (MONO)
THD1
Pin11 output, 22.5kHz dev.
0.4
1.5
%
Total harmonic distortion 2 (MONO)
THD2
Pin11 output, 75kHz dev.
1.3
3.0
%
49
dBμV
FS
Field intensity display level
Mute attenuation
Mute-Att
Input level at which FS3 changes to FS4
35
Pin 11 output
60
70
dB
FM receive characteristic STEREO characteristic
: fc=80MHz, fm=1kHz, VIN60dBμV, L+R=90% (67.5kHz dev.), Pilot=10% (7.5kHz dev.), Audio filter = IHF_BPF+15kHz_LPF
Separation
Total harmonic distortion (Main)
SEP
THD-ST
L-mod, Pin11/pin12 output
20
Main-mod (for L+R input), Pin11 output
35
dB
1.3
3.0
%
AM receive characteristic
: fc=1.2MHz, fm=1kHz, 30% mod, Audio filter = IHF_BPF
Demodulation output 1
VO1
VIN=30dBμV, Pin11 output
35
55
80
mVrms
Demodulation output 2
VO2
VIN=80dBμV, Pin11 output
30
50
75
mVrms
Signal-to-noise ratio 1
S/N1
VIN=30dBμV, Pin11 output
14
21
Signal-to-noise ratio 2
S/N2
VIN=80dBμV, Pin11 output
40
45
Total harmonic distortion
THD
VIN=80dBμV, Pin11 output
Field intensity display level
FS
Input level at which FS3 changes to FS4
1.0
35
dB
dB
3.0
%
49
dBμV
No.A0194-3/18
LV24100LP
Package Dimensions
unit : mm (typ)
3302A
Top View
Bottom View
0.35
5.0
30
21
20
(0.7)
0.4
5.0
0.35
31
40
11
10
1
0.85MAX
0.05
0 NOM
(0.7)
0.2
SANYO : VQLP40(5.0X5.0)
CLOCK
DATA
NR_W
VDD
NC
Vstabi
NC
VCC
NC
Vstabi2
Block Diagram and Pin Assigment
30
29
28
27
26
25
24
23
22
21
VDD
VCC
CLK_IN 31
Power
management
Digital
interface
NC 32
Package-GND 33
Tuning
system
Quadrature
oscillator
Package-GND 34
Voltage
stabilizer
Package-GND 35
Selectivity
filter
Pre-scaler
Package-GND 36
MPX
19
NC
18
Package-GND
17
Package-GND
16
Package-GND
15
Package-GND
14
Package-GND
13
Package-GND
12
LINE-OUT-R
11
LINE-OUT-L
Demodulator
Quadrature
mixer
Package-GND 37
20
Stereo
decoder
Package-GND 38
De-emphasis
NC 39
Ant-cap.
Buffer amp.
VI/O 40
GND
1
2
3
4
5
6
7
8
9
10
GND
AM-ANT1
AM-ANT2
FM-ANT1
FM-ANT2
GND
NC
NC
NC
NC
GND
Top view
No.A0194-4/18
LV24100LP
Pin Discription
Pin
1
Name
I/O
GND
Description
Remarks
DC Voltage
Analog and Digital GND
2
AM-ANT1
I
AM Antenna input
3
AM-ANT2
I
AM Antenna GND
4
FM-ANT1
I
FM Antenna input
5
FM-ANT2
I
FM Antenna GND
6
GND
7
NC
Analog and Digital GND
8
NC
9
NC
10
NC
11
LINE-OUT-L
O
12
LINE-OUT-R
O
13
Package-shield GND
GND for Package-shield
14
Package-shield GND
GND for Package-shield
15
Package-shield GND
GND for Package-shield
16
Package-shield GND
GND for Package-shield
17
Package-shield GND
GND for Package-shield
18
Package-shield GND
GND for Package-shield
19
NC
Radio Lch Line-output
1.2V
Radio Rch Line-output
1.2V
20
MPX
MPX-signal output
21
Vstabi2
2nd Stabilizer voltage
22
NC
23
VCC
24
NC
25
Vstabi.
26
NC
27
VDD
28
NR_W
I
29
DATA
I/O
Digital interface DATA
Digital interface Clock
VCC-0.3V
3.0V
Analog supply voltage
Stabilizer voltage
2.4V
Digital supply voltage
30
CLOCK
I
31
CLK_IN
I
Digital interface Read/Write
Reference clock-source input
for measurement
32
NC
33
Package-shield GND
GND for Package-shield
34
Package-shield GND
GND for Package-shield
35
Package-shield GND
GND for Package-shield
36
Package-shield GND
GND for Package-shield
37
Package-shield GND
GND for Package-shield
38
Package-shield GND
GND for Package-shield
39
NC
40
VI/O
Connect to GND
if not used
Digital interface supply voltage
No.A0194-5/18
LV24100LP
The PCB mounting conditions which cover FM receiving frequency range 76MHz to 108MHz
This IC Package is printed inductor backside of the package for local oscillation. It is necessary to place GND pattern
right under the IC package for covering received frequency range 76MHz to 108MHz.
This IC is measured under this condition for received frequency range. Then, the GND pattern must be placed at the
center of the IC.
Printed circuit board
LV24100LP
Side-A
Side-B
GND pattern
GND pattern
LV24100LP Evaluation board side-A
PCB layout recommendations
5.0×5.0
5.0×5.0
1
0.8
3.4
0.7
0.8
1
0.8
0.2
2.2
PCB GND Layer
Layer
X=3.4
0.4
0.8
21
0.35
Substrate layout of LV24100LP
21
PCB pattern light under of LV24100LP
At the GND pattern light under of LV24100LP, X=3.4mm is recommended.
The limit of X is min=2.2mm and max=3.6mm same as GND shield size of LV24100LP.
Please do not arrange other wirings as much as possible within 0.4mm under the GND pattern.
No.A0194-6/18
LV24100LP
Serial Data Timing
• Write timing
tW
tHD
NR_W
tDL
DATA
tCL
VIH
VIL
tCH
CLOCK
Symbol
Ratings
Conditions
min
typ
Unit
max
tW
Delay from command to data
750
ns
tDL
Delay from data stable to data latch time
750
ns
tHD
Data Hold time
750
ns
tCH
Clock High-level time
750
ns
tCL
Clock Low-level time
750
ns
• Read timing
tW
NR_W
tSU
tHD
DATA
CLOCK
Symbol
Ratings
Conditions
min
typ
Unit
max
tW
Delay from command to 1st data bit
tSU
Data Setup time
350
ns
THD
Data hold time
350
ns
350
ns
No.A0194-7/18
LV24100LP
• External clock timing (Pin 31)
tCH
CLK_IN
tCL
VIH
VIL
Symbol
Ratings
Conditions
min
Unit
typ
max
tCH
Clock High-level time
36
-
15625
ns
tCL
Clock Low-level time
36
-
15625
ns
fext
External clock frequency
32
-
14000
kHz
VIH
High level input voltage level
0.7VDD
-
VDD
V
VIL
Low level input voltage level
0
-
0.6
V
Digital Interface
• 3-wire bus (For communication line)
Access to the LV24100 is done through the 3-wire bus.
CLOCK
NR_W
Data strobe, input to the LV24100
Command (Read or write data), input to the LV24100
Bi-directional pin:
DATA
Written data in to the LV24100 when NR_W is high,
Read data from the LV24100 when NR_W is low.
The LV24100 can be configured to generate interrupt through the DATA-line. When interrupt mode is selected, care
should be taken that the DATA-line connection to the application micro-controller also supports interrupt.
When the required timing window for frequency measurements is not generated by the application micro-controller, an
external clock must be connected to CLK_IN pin of the LV24100.
• Register map
The LV24100 registers are divided in 3 blocks:
Block 01h
Status and measurement
Block 02h
FM Control
Block 03h
AM control
To access a register in a block, the block must be first selected by writing the block number to the BLK_SEL register.
Block selection can be skipped for subsequent accesses to other registers in the same block.
No.A0194-8/18
LV24100LP
The mapping is as follows:
Block
01h
02h
03h
Address
Register name
Access
Operation
00h
CHIP_ID
R
Chip identification
01h
BLK_SEL
W
Block Select
02h
MSRC_SEL
W
Measure source select
03h
FM_OSC
W
DAC control for FM-RF oscillator
04h
SD_OSC
W
DAC control for stereo decoder oscillator
05h
IF_OSC
W
DAC control for IF oscillator
06h
CNT_CTRL
W
Counter control
07h
NA
-
08h
IRQ_MSK
W
Interrupt mask
09h
FM_CAP
W
CAP bank control for RF-frequency
0Ah
CNT_L
R
Counter value low byte
0Bh
CNT_H
R
Counter value high byte
0Ch
CTRL_STAT
R
Control status
0Dh
RADIO_STAT
R
Radio station status
0Eh
IRQ_ID
R
Interrupt identify
0Fh
IRQ_OUT
W
Set Interrupt on DATA-line
01h
BLK_SEL
W
Access register 01h of block 1
02h
RADIO_CTRL1
W
Radio control 1
03h
IF_CENTER
W
IF Center Frequency
04h
AM_CAP
W
All to be set to “0”
05h
IF_BW
W
IF Bandwidth
06h
RADIO_CTRL2
W
Radio control 2
07h
RADIO_CTRL3
W
Radio control 3
08h
STEREO_CTRL
W
Stereo control
09h
AUDIO_CTRL1
W
Audio control 1
0Ah
AUDIO_CTRL2
W
Audio control 2
0Bh
PW_SCTRL
W
Power and soft control
01h
BLK_SEL
W
Access register 01h of block 1
02h
AM_ACAP
W
AM antenna capacitor
03h
AM_FE
W
AM front end control
04h
AM_CTRL
W
AM control
Not mentioned registers are not defined and should not be accessed.
No.A0194-9/18
LV24100LP
Register Description
Block x, Register 01h-BLK_SEL-Block Select Register(Write only)
7
6
5
4
3
2
1
0
2
1
0
BN[7:0]
Bit 7-0:
BN[7:0]: 8-bit block number. For LV24100, the following numbers are valid:
01h.
02h.
03h.
Note: This register can be accessed from any block
Block 1, Register 00h-CHIP_ID-Chip Identify Register(Read only)
7
6
5
4
3
ID[7:0]
Bit 7-0:
ID[7:0]: 8-bit chip ID.
For LV24100, value 7 should be read
Block 1, Register 02h-MSRC_SEL-Measurement Source Select Register(Write-only)
7
MSR_O
Bit 7:
6
5
4
3
2
1
0
AFC_LVL
AFC_SPD
MSS_RF16
MSS_AM
MSS_SD
MSS_FM
MSS_IF
2
1
0
2
1
0
MSR_O: Output measure source to DATA-pin
0 = Measuring source not available at DATA-pin (normal operation).
1 = Measuring source available at DATA-pin (test mode).
Bit 6:
AFC_LVL: AFC trigger level
0 = AFC is always active (trigger at 0dBμV)
1 = AFC is only active when field strength is above 20dBμV
Bit 5:
AFC_SPD: AFC speed
0 = AFC adjusts with 3Hz speed
1 = AFC adjusts with 8kHz speed (test mode)
Bit 4:
MSS_RF16: RF/16 measurement.
0 = Disable RF/16 oscillator measurement
1 = Enable RF/16 oscillator measurement
Bit 3:
MSS_AM: AM antenna frequency measurement.
0 = Disable AM antenna measurement
1 = Enable AM antenna measurement
Bit 2:
MSS_SD: Stereo decoder oscillator measurement
0 = Disable stereo decoder oscillator measurement
1 = Enable stereo decoder oscillator measurement
Bit 1:
MSS_FM: FM RF oscillator measurement
0 Disable FM RF oscillator measurement
1 = Enable FM RF oscillator measurement
Bit 0:
MSS_IF: IF oscillator measurement
0 = Disable IF oscillator measurement
1 = Enable IF oscillator measurement
Note: Only one of the measurement source MSS_xx bits may be set at a time.
The FM RF frequency is divided by 256 or 16 before it goes to the measuring circuitry.
Block 1, Register 03h-FM_OSC-FM RF Oscillator Register(Write-only)
7
6
5
4
3
FMOSC[7:0]
Bit 7-0:
FMOSC[7:0]: DAC value to control the FM RF oscillator (fine step)
Note: Positive DAC control (i.e. the frequency increases with the register’s value)
See also FM_CAP register
Block 1, Register 04h-SD_OSC-Stereo Decoder Oscillator Register(Write-only)
7
6
5
4
3
SDOSC[7:0]
Bit 7-0:
SDOSC[7:0]: DAC value to control the stereo decoder oscillator
Note: Positive DAC control(i.e. the frequency increases with the register’s value)
No.A0194-10/18
LV24100LP
Block 1, Register 05h-IF_OSC-IF Oscillator Register(Write-only)
7
6
5
4
3
2
1
0
IFOSC[7:0]
Bit 7-0:
IFOSC[7:0]: DAC value to control the IF oscillator
Note: Positive DAC control (i.e. the frequency increases with the register’s value)
Block 1, Register 06h-CNT_CTRL-Counters Control Register(Write-only)
7
6
5
4
3
2
1
0
CNT1_CLR
CTAB2
CTAB1
CTAB0
SWP_CNT_L
CNT_EN
CNT_SEL
CNT_SET
Bit 7:
CNT1_CLR: Clear counter 1 bit
0 = Normal mode
1 = Clear and keep counter 1 in reset mode
Bit 6-4:
CTAB[2:0]: Tab select for counter 2 measuring interval bits
Bit 3:
Value
Dec.
Stop value
000b
0
Stop after 2 counts
001b
1
Stop after 8 counts
010b
2
Stop after 32 counts
011b
3
Stop after 128 counts
100b
4
Stop after 512 counts
101b
5
Stop after 2048 counts
110b
6
Stop after 8192 counts
111b
7
Stop after 32768 counts
SWP_CNT_L: Swap counter 1 and counter 2 bit(Active low)
0 = Clock source 1 to counter 2, clock source 2 to counter 1(swapping)
1 = Clock source 1 to counter 1, clock source 2 to counter 2(no swap)
Bit 2:
CNT_EN: Enable the currently selected counter bit
0 = Disable counter(stop counting)
1 = Enable counter(counting mode)
Bit 1:
CNT_SEL: counter select bit
0 = Select counter 1 for measurement
1 = Select counter 2 for measurement
Bit 0:
CNT_SET: Set counters bit
0 = Normal mode
1 = Set both counter 1 and counter 2 to FFFFh and keep them set
Block 1, Register 08h-IRQ_MSK-Interrupt Mask Register(Write-only)
7
6
Reserved
IM_MS
5
4
Reserved
Bit 7:
Reserved: Must be programmed with 0.
Bit 6:
IM_MS: Mono/Stereo interrupt mask bit
3
2
1
0
IRQ_LVL
IM_AFC
IM_FS
IM_CNT2
0 = Disable mono/stereo change interrupt
1 = Enable mono/stereo change interrupt
Bit 5:
Reserved: Must be programmed with 0.
Bit 4:
Reserved: Must be programmed with 0.
Bit 3:
IRQ_LVL: Interrupt level select bit
0 = Drive DATA-line from low to high when interrupt occurs(active high)
1 = Drive DATA-line from high to low when interrupt occurs(active low)
Bit 2:
IM_AFC: AFC out of range interrupt mask bit
0 = Disable AFC out of range interrupt
1 = Enable AFC out of range interrupt
Bit 1:
IM_FS: Field strength change interrupt mask bit
0 = Disable field strength change interrupt
1 = Enable field strength change interrupt
Bit 0:
IM_CNT2: Counter 2 counting done interrupt mask bit
0 = Disable counter 2 counting done interrupt
1 = Enable counter 2 counting done interrupt
No.A0194-11/18
LV24100LP
Block 1, Register 09h-FM_CAP-FM RF Capacitor Bank Register(Write-only)
7
6
5
4
3
2
1
0
2
1
0
2
1
0
FMCAP[7:0]
Bit 7-0:
FMCAP[7:0]: CAP bank value to control the FM RF frequency (coarse steps)
Note: 7½ bit CAP value (Bit[7:6]: Combination 10b and 01b results in the same CAP-range)
Negative control: de RF frequency decreases when increasing the register’s value
See also FM_OSC register
Block 1, Register 0Ah-CNT_L-Counter Value Low Register(Read-only)
7
6
5
4
3
CNT_LSB[7:0]
Bit 7-0:
CNT_LSB[7:0]: Lower 8-bit value of the 16 bit counter
Block 1, Register 0Bh-CNT_H-Counter Value High Register(Read-only)
7
6
5
4
3
CNT_MSB[7:0]
Bit 7-0:
CNT_MSB[7:0]: Upper 8-bit value of the 16 bit counter
Block 1, Register 0Ch-CTRL_STAT-Control Status Register(Read-only)
7
6
5
4
REV3
REV2
REV1
REV0
Bit 7-4:
REV[3:0]: should be read as 0Dh
Bit 3-2:
Reserved[1:0]: should be read as all 1
Bit 1:
COV_FLG: counter overflow flag
3
2
Reserved
1
0
COV_FLG
AFC_FLG
1
0
0 = No overflow of the internal counter
1 = The last counting loop causes overflow of the internal counter
Bit 0:
AFC_FLG: AFC out of range bit
0 = AFC is within control range
1 = AFC is out of control range
Note: Reading this register will clear AFC, count 2 done interrupt.
COV_FLG is clear when CLR_CNT1 bit of CNT_CTRL register is high
Block 1, Register 0Dh-RADIO_STAT-Radio Station Status Register(Read-only)
7
6
5
4
RSS_MS
Bit 7:
3
2
RSS_FS
RSS_MS: Radio station mono/stereo state bit
0 = Mono
1 = Stereo
Bit 6-0:
RSS_FS[6:0]: Radio station field strength bits
1111111b = Field strength less then 10dBμV
0111111b = Field strength between 10 to 20dBμV
0011111b = Field strength between 20 to 30dBμV
0001111b = Field strength between 30 to 40dBμV
0000111b = Field strength between 40 to 50dBμV
0000011b = Field strength between 50 to 60dBμV
0000001b = Field strength between 60 to 70dBμV
0000000b = Field strength above 70dBμV
Note: Reading this register will clear field strength and mono/stereo interrupt
No.A0194-12/18
LV24100LP
Block 1, Register 0Eh-IRQ_ID-Interrupt Identify Register(Read-only)
7
6
Reserved
5
4
3
II_CNT2
Reserved
II_AFC
Bit 7:
Reserved: should be read as 1
Bit 6:
Reserved: should be read as 1
Bit 5:
II_CNT2: Counter 2 counting done flag
2
1
Reserved
0
II_FS_MS
0 = No counting 2 counting done interrupt
1 = Measuring with counter 2 is done
Bit 4:
Reserved: should be read as 0
Bit 3:
II_AFC: AFC out of range interrupt bit
0 = No AFC interrupt
1 = AFC fails to hold the RF-frequency in range
Bit 2:
Reserved: should be read as 0
Bit 1:
Reserved: should be read as 0
Bit 0:
II_FS_MS: Field strength and Mono/stereo interrupt bit
0 = No change in either the field strength or the mono/stereo mode
1 = Change in field strength bits detected or mono/stereo mode has changed
Block 1, Register 0Fh-IRQ_OUT-Set Interrupt Out Register(Write Only)
7
6
5
4
3
2
1
0
IRQO_VAL[7:0]
Bit 7-0:
IRQO_VAL[7:0]: Write any value to this register will select the interrupt as output
on the DATA-line of the LV24100 (the DATA-line can then be used as interrupt pin)
Block 2, Register 02h-RADIO_CTRL1-Radio Control 1 Register(Write-only)
7
6
5
4
3
2
1
0
EN_MEAS
EN_AFC
Reserved
AM_CD2
DIR_AFC
RST_AFC
AM_CD1
AM_CD0
Bit 7:
EN_MEAS: Enable measurement bit
0 = Normal mode
1 = Measurement mode
Bit 6:
EN_AFC: Enable AFC bit
0 = Disable AFC
1 = Enable AFC
Bit 5:
EN_RF16:Enable RF16 Divider bit
0 = Disable RF16
1 = Enable RF16
Bit 4:
AM_CD2: AM clock divider bit 2. Should be kept at 1 in FM mode
Bit 3:
DIR_AFC: AFC direction bit
0 = AFC normal direction
1 = AFC reverse direction (for test purpose)
Bit 2:
RST_AFC: Reset AFC bit
0 = Normal operation
1 = Reset AFC to the middle of the control range
Bit 1:
AM_CD1: AM clock divider bit 1. Should be kept at 1 in FM mode
Bit 0:
AM_CD0: AM clock divider bit 0. Should be kept at 1 in FM mode
Note: The AM_CD[2:0] bits are used to scale the FM-RF frequency down to AM-RF frequency. In FM mode, the AM divider should be turned off.
AM_CD[2:0]
Divider factor
0
48
1354
Approx. AM-RF (in kHz)
2291
1
64
1015
1718
2
80
812
1375
3
96
677
1145
4
128
507
859
5
160
406
687
6
192
338
572
7
Divider OFF
Block 2, Register 03h-IFCEN_OSC-IF Center Frequency Oscillator Register(Write-only)
7
6
5
4
3
2
1
0
IFCOSC[7:0]
Bit 7-0:
IFCENT[7:0]: value for centering the IF frequency
No.A0194-13/18
LV24100LP
Block 2, Register 04h-AM_CAP(Write-only)
7
6
5
4
3
2
1
0
3
2
1
0
AM_CAP[7:0]
Bit 7-0:
AM_CAP[7:0]:all bit to be set to 0
Block 2, Register 05h-IF_BW-IF Bandwidth Register(Write-only)
7
6
5
4
IFBW[7:0]
Bit 7-0:
IFBW[7:0]: Value for IF bandwidth
Block 2, Register 06h-RADIO_CTRL2-Radio Control 2 Register(Write-only)
7
6
5
4
3
2
1
0
VREF2
VREF
STABI_BP
IF_PM_L
DCFB_SPD
DCFB_OFF
AGCSP
Reserved
1
Bit 7:
VREF2: VREF2 control bit
0 = VREF2 is ON
1 = VREF2 is OFF
VREF: VREF control bit
Bit 6:
0 = VREF is ON
1 = VREF is OFF
Bit 5:
STABI_BP: Voltage stabilizer bypass bit
0 = Internal voltage is Vstabi (normal operation)
1 = Internal voltage is VCC (stabilizer bypassed)
Bit 4:
IF_PM_L: IF PLL mute bit
0 = IF PLL mute on (presetting IF mode)
1 = IF PLL mute off (normal operation mode)
Bit 3:
DCFB_SPD: DC feedback speed
0 = normal speed
1 = high speed (test mode)
Bit 2:
DCFB_OFF: DC feedback control
0 = Enable DC feedback (FM mode)
1 = Turn off the DC feedback (AM mode)
Bit 1:
AGCSP: AGC speed control bit
0 = Normal speed
1 = High speed (test mode)
Bit 0:
Reserved: should be written with 0
Block 2, Register 07h-RADIO_CTRL3-Radio Control 3 Register(Write-only)
7
6
5
4
3
2
AGC_SLVL
VOLSH
Reserved
AMUTE_L
SE_FM
SE_AM
Bit 7:
AGC_SLVL: AGC set level bit
Bit 6:
VOLSH: Volume level shift bit
0
Reserved
This bit must be set to 1
0 = Normal volume level
1 = Extra volume of 12dB
Bit 5:
Reserved: should be written with 0
Bit 4:
AMUTE_L: Audio mute bit
0 = Audio muted
1 = Audio not muted
Bit 3:
SE_FM: FM radio select bit
0 = Disable FM radio
1 = Enable FM radio
Bit 2:
SE_AM: AM radio select bit
0 = Disable AM radio
1 = Enable AM radio
Bit 1:
Reserved: should be written with 0
Bit 0:
Reserved: should be written with 0
Note: Do not set bit 3 and 2 on at the same time.
No.A0194-14/18
LV24100LP
Block 2, Register 08h-STEREO_CTRL-Stereo Control Register(Write-only)
7
6
FRCST
Bit 7:
5
4
FMCS[2:0]
3
2
1
0
DLT_TNE
PILOTCANC
SD_PM
ST_M
2
1
0
FRCST: Force stereo bit
0 = Normal mode
1 = Force stereo mode for test
Bit 6-4:
FMCS[2:0]: FM channel separation bits
Bit 3:
DLT_TNE: Delta tune bit
0…7=FM channel separation level
0 = Decrease delta tune
1 = Normal delta tune
Bit 2:
PILOTCANC: Pilot cancellation bit
0 = No pilot cancellation
1 = Pilot cancellation enabled
Bit 1:
SD_PM: Stereo decoder PLL mute bit
0 = Stereo decoder PLL not muted(normal operation)
1 = Stereo decoder PLL is muted(presetting mode)
Bit 0:
ST_M: FM stereo/mono mode bit
0 = Stereo mode
1 = Mono mode
Block 2, Register 09h-AUDIO_CTRL1-Audio Control 1 Register(Write-only)
7
6
5
4
3
Reserved
Bit 7-1:
Reserved: should be written with 0
Bit 0:
nAUBST: Audio output level boost bit
nAUBST
0 = Boost output level with 3dB
1 = No output level boosting
Block 2, Register 0Ah-AUDIO_CTRL2-Audio Control 2 Register(Write-only)
7
6
Reserved
5
4
3
DEEMP
Bit 7-6:
Reserved: should be written with 1
Bit 5:
DEEMP: De-emphasis bit
2
1
0
1
0
Reserved
PW_RAD
1
0
Reserved
0 = De-emphasis 50μs.
1 = De-emphasis 75μs.
Bit 4-0:
Reserved: should be written with 0
Block 2, Register 0Bh-PW_SCTRL-Power and Soft Control Register(Write-only)
7
6
5
4
SS_CTRL
Bit 7-5:
3
2
SM_CTRL
SS_CTRL: Soft stereo control bits(8 levels)
000b = Minimal soft stereo(off)
111b = Maximal soft stereo level
Bit 4-2:
SM_CTRL: Soft audio mute bits(8 levels)
000b = Minimal soft audio mute(off)
111b = Maximal soft audio mute level
Bit 1:
Reserved: should be written with 0
Bit 0:
PW_RAD: Radio circuitry power bit
0 = Radio circuitry is switched OFF.
1 = Switch radio circuitry ON
Note: PW_RAD is 0 at power up
Block 3, Register 02h-AM_ACAP-AM Antenna Capacitor Bank Register(Write-only)
7
6
5
4
3
2
AMCAP[7:0]
Bit 7-0:
AMCAP[7:0]: CAP bank value to control the AM antenna frequency
Note: AM antenna capacitor bank is controlled by 10 bits. The upper 2 bits are located in AM_FE register.
Negative control: de frequency decreases when increasing the register’s value.
No.A0194-15/18
LV24100LP
Block 3, Register 03h-AM_FE-AM Front End Register(Write-only)
7
6
5
4
AGC_LVL
3
2
AGC_GAIN
Bit 7-5:
AGC_LVL[2:0]: AGC level bits
Bit 4:
AAGC_EG: AM AGC extra gain
Bit 3-2:
AAGC_GAIN[1:0]: AM AGC gain setting
Bit 1-0:
AMCAP[9:8]: Upper bits of AM antenna capacitor bank
1
0
AMCAP9
AMCAP8
1
0
Block 3, Register 04h-AM_CTRL-AM Control Register(Write-only)
7
6
5
4
3
2
AMFE_AT
AABSW
nFIFAGC
AMFE_EN
AM_CAL
nAMEMG
Bit 7:
FE_SPD[1:0]
AMFE_AT: AM front end attenuator
0 = Disable AM front end attenuator
1 = Enable AM front end attenuator
Note: This bit is don’t care for FM and should be 1 for AM
Bit 6:
AABSW: AM antenna band switch
0 = Switch off AM antenna band
1 = Switch on AM antenna band
Bit 5:
nFIFAGC: Fast IF AGC(active low)
0 = Fast IF AGC speed
1 = Norma lF AGC speed
Note: This bit must be 0 for FM.
In AM mode, this bit must be 1 and can be changed to 0 during scanning for AM stations to speed up the scan operation.
Bit 4:
AMFE_EN: Enable AM front end bit
0 = Disable AM front end
1 = Enable AM front end
Bit 3:
AM_CAL: AM calibration bit
0 = Disable AM calibration(normal operation)
1 = Enable AM calibration(calibrate AM antenna frequency mode)
Note: This bit must be set to 1 before measuring the AM antenna frequency
Bit 2:
nAMEMG: Extra gain AM mixer bit
0 = Extra mixer gain(normal operation)
1 = No extra mixer gain
Bit 1-0:
FE_SPD[1:0]: AM front end speed bits
No.A0194-16/18
LV24100LP
Test Circuit
200Ω
200Ω
200Ω
200Ω
Micro-controller
VDD(3.0V)
100nF
VCC(3.0V)
22μF
VCC
VDD
NR_W
DATA
CLOCK
100nF
1μF
30 29 28 27 26 25 24 23 22 21
CLK_IN
31
20
32
19
33
18
34
17
LV24100LP
35
16
36
15
37
14
38
13
39
12
40
11
VI/O
1
10nF
2
3
4
5
6
7
8
100nF
Line-out-R
100nF
Line-out -L
9 10
180μH
50Ω
AM
SSG
18μH
50Ω
1nF
50Ω
FM
SSG
50Ω
No.A0194-17/18
LV24100LP
VDD
Application Circuit
VCC(3.3V)
200Ω
200Ω
200Ω
200Ω
Micro-controller
10Ω or 1μH
Option
0.22μF
22μF
VCC
VDD
DATA
NR_W
CLOCK
0.1μF
4.7Ω or 2.2μH
1μF
30 29 28 27 26 25 24 23 22 21
CLK_IN
31
20
32
19
33
18
34
17
LV24100LP
35
GND*
16
VCC
36
15
37
14
GND*
38
13
Line-out-R
39
12
40
11
VI/O
1
AM ANT
2
3
4
5
6
7
9 10
1μF
Headphone
Amp.
Line-out -L
1μH
1μH
22μF
2.2μH
GND
FM ANT
240μH
GND* : Package shield GND
8
1μF
22μF
100pF
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to change without notice.
PS No.A0194-18/18