SANYO LC01707PLF

Ordering number : ENA1928A
CMOS LSI
LC01707PLF
FM multiple tuner IC
Overview
LC01707PLF is a vehicle-mounted FM multiple tuner IC with FM-FE, IF, IF-Filter, PLL, FM-DEMO and LPF
incorporated. An FM multiple tuner can be developed with this one chip. It makes up a small-sized FM multiple tuners
which can be mounted on PND.
Functions
• It is the FM tuner IC exclusively for the FM multiple.
• LNA is incorporated
• Image reduction complex BPF is incorporated
• Wide / Narrow Band RF AGC is incorporated
• Narrow Band IF AGC is incorporated
• Image rejection is adopted
• DLL detection method is adopted for the FM detection circuit, and it is not necessary to adjust.
• LPF for the carrier removal is incorporated.
• IC requires fewer external components.
• It is a BUS control tuner IC which can be controlled by controlled by I2C BUS.
Specifications
Maximum Ratings at Ta = 25°C
Parameter
Symbol
Conditions
Ratings
Unit
Supply voltage
VDD max
4.3
V
Maximum input voltage
VDD H
4.3
V
Maximum output voltage
VDD L
Power dissipation
Pd max
Operating ambient
Topr
-40 to 85
Storage temperature
Tstg
-55 to 150
°C
Maximum junction temperature
Tj max
150
°C
Ta = 85°C *1
4.3
V
700
mW
°C
*1: Board size: 80mm × 70mm × 1.6mm Glass epoxy double-sided board
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. 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 new introduction or other application different
from current conditions on the usage of automotive device, communication device, office equipment, industrial
equipment etc. , please consult with us about usage condition (temperature, operation time etc.) 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.
O1911 SY/81011 SY 20110210-S00002 No.A1928-1/18
LC01707PLF
Recommended Operating Conditions at Ta = 25°C
Parameter
Symbol
Conditions
Ratings
Unit
Supply voltage range
VDD
3.0 to 3.6
V
Recommended supply
VDD
3.3
V
temperature
Electrical Characteristics at Ta = 25°C, VDD = 3.3V,
fc = 83MHz, VIN=60dBμVEMF, fm=1kHz, Audio filter: HPF=100Hz, LPF=15kHz
Resister setting: IF AGC (02h) =6(110), RF AGC (00h) =0(0000)
DLL demodulator loop gain setting (09h) =1(01), Mono multi center setting (09h) =7(0111)
Ratings
Parameter
Symbol
Conditions
Unit
min
typ
max
Practical sensitivity 1 (S/N30dB)
SN30
22.5kHz dev, fm=1kHz, S/N=30dB input level
12
Practical sensitivity 2 (S/N10dB)
SN10
7.5kHz dev, fm=76kHz, S/N=10dB input level
27
20
dBμEMF
dBμEMF
S/N1
SN1
22.5kHz dev, fm=1kHz
44
dB
S/N2
SN2
7.5kHz dev, fm=76kHz *1
21
dB
Total harmonic distortion rate 1
THD_1
22.5kHz dev, fm=1kHz
0.5
%
Total harmonic distortion rate 2
THD_2
75.0kHz dev, fm=1kHz
0.5
%
AM suppression ratio
AMR
AM 30% mod
44
dB
Image rejection ratio
IMR
22.5k\Hz dev, fm=1kHz
Audio output level 1
AD01
7.5kHz dev, fm=1kHz *1
26
39
70
mVrms
Audio output level 2
AD02
7.5kHz dev, fm=76kHz *1
15
23
41
mVrms
Consumption current
IDD
No signal input
106
170
mA
*1
34
34
32
dB
*1: Audio filter: HPF=100Hz, LPF=OFF
Package Dimensions
unit : mm (typ)
3408
TOP VIEW
SIDE VIEW
BOTTOM VIEW
6.0
44
0.5
(4.0)
6.0
(4.0)
2 1
12
0.0 NOM
(0.8)
SIDE VIEW
0.4
(1.0)
0.85 MAX
0.16
SANYO : VQFN44K(6.0X6.0)
No.A1928-2/18
LC01707PLF
NAGC
SMETER
0.68 F
34
VDD
35
36
37
38
Freq.Count
1
33
0.22 F
WAGC
LPFO
DEMCO
0.22 F
DEMCO
56pF
220pF
LPFI
40
39
NC
NC
41
NC
42
44
43
NC
GND
Decoder
0.022 F
Example of applied circuit (constant is tentative)
LIM
VDD
0.022 F
-
DEMO
LPF
+
2
32
SDA
31
SCL
30
INT
29
NC
28
NC
27
NC
26
SD
25
XTAL
10nF
VSS
3
I/F
W_AGC
VDD
N_AGC
NC
4
NC
5
MIX I
IF
AGC
6
MIX Q
IF
AGC
22 F
+
0.68 F
VDD
100pF
120nH
27pF
VSS
47pF
LNA_N
MIX I
f0:600kHz
Complex
BPF
MIX Q
1.8MHz
7
8
DIV
injection
LNA
9
LOCK
DET
REF
COUNT
PD CP
PROG
COUNT
DIV
NC
10
NC
11
COM
BPF
f0:1.2MHz
0.022 F
LNA_P
Complex
BPF
X_TAL
18pF
7.2MHz
Freq.Count
24
VSS
DEVAR
23
22
NC
21
NC
20
NC
19
NC
18
2.7nH
17
VSS
16
0.022 F
2.7nH
VDD
15
14
VDD
0.022 F
100pF
10pF
VSS
CP
12
13
C BANK
* Culprits oscillation circuit is used in this IC as a crystal oscillation circuit. Caution is required for layout of the board
because oscillation between pin25 and power source and GND line.
* The margin of crystal oscillation changes due to the combination of the IC, a crystal oscillator and a board layout. This
independent IC does not quarantine the oscillation operation.
* This IC uses the signal of FM band frequency (VCO divided into 1/4) which leaks into ANT pin. If the VCO leakage
affects the performance of the system, make sure to connect an isolator on ANT pin path.
Component
L1/L2
L3
X1
Parameter
Local OSC coil
Differential input coil
Crystal
Value
2.7nH
120nH
7.2MHz
Type
C2012H-2N7D-RD
C2012H-R12G-RC
SMD-49
AT-49
EXS00A-A01145
EXS00A-A01146
Supplier
SAGAMI
SAGAMI
KDS
KDS
NDK
NDK
No.A1928-3/18
LC01707PLF
Pin Description
Pin No.
1
Pin name
I/O
Function
NAGC
O
Narrow band AGC detection capacitance connecting pin
2
WAGC
O
Wide band AGC detection capacitance connecting pin
3
VSS
P
GND pin for IF
4
NC
-
5
NC
-
6
VDD
P
Supply pin for LNA
7
LNA_A
I
LNA +input pin
8
VSS
P
GND pin for LNA
9
LNA_N
I
LNA –input pin
10
NC
-
11
NC
-
12
VSS
P
13
CP
O
PLL charge pump capacitance connecting pin
14
VDD
P
Supply pin 1st Mixer
15
VDD
P
Supply pin for local oscillation
16
LO_1
O
Inductor connecting pin for local oscillation
17
VSS
P
GND pin for local oscillation
18
LO_2
O
Inductor connecting pin for local oscillation
19
NC
-
20
NC
-
21
NC
-
22
NC
-
23
DEVER
I
Device address setting pin
24
VSS
P
GND pin for PLL and logic
25
XTAL
I
Crystal resonator connecting pin (Clock input pin)
26
SD
O
Station detector pin
27
NC
-
28
NC
-
29
NC
-
30
INT
O
Test pin
31
SCL
I
Serial data clock input
GND pin for 1st Mixer
32
SDA
I
serial data input-output
33
VDD
P
Supply pin for PLL and logic
34
SMETER
O
S-meter output
35
VDD
P
Supply pin for IF
36
LPFO
O
Demodulation output (after band limitation)
37
DEMOO
O
Demodulation output
38
LPFI
I
Demodulation signal input pin
39
DEMOC
O
Capacitance connecting pin for demodulation detection
40
NC
-
41
NC
-
42
NC
-
43
NC
-
44
GND
P
GND pin
No.A1928-4/18
LC01707PLF
Pin Function
Pin No. Pin name
1
NAGC
Function
Equivalent circuit
Narrow band AGC detection capacitor connection pin.
VDD
VDD
1
2
WAGC
Wide band AGC detection capacitor connection pin.
VDD
VDD
2
3
VSS
GND pin for IF.
4
NC
No connection.
5
NC
No connection.
6
VDD
Supply pin for LNA.
7
LNA_P
Pin 7 is + input pin for LNA.
8
VSS
Pin 8 is GND pin for LNA.
9
LNA_N
Pin 9 is - input pin for LNA.
VDD
VDD VDD
7
9
10
NC
No connection.
11
NC
No connection.
12
VSS
GND pin 1st mixer for the 1st mixer.
13
CP
PLL charge pump capacitor connection pin.
VDD
VDD
VDD
13
14
VDD
Supply pin for the 1st mixer.
15
VDD
Supply pin for local oscillator.
Continued on next page.
No.A1928-5/18
LC01707PLF
Continued from preceding page.
Pin No. Pin name
Function
16
LO_1
Pin 16 is inductor connection pin for local
17
VSS
oscillator.
18
LO_2
Pin 17 is GND pin for local oscillator.
Equivalent circuit
16
18
17
VDD
VDD
oscillator.
Cap
Bank
Cap
Bank
Pin 18 is inductor connection pin for local
To Pin13
19
NC
No connection.
20
NC
No connection.
21
NC
No connection.
22
NC
No connection.
23
DEVAR
Device address setting pin.
VDD
VDD
23
24
VSS
PLL_logic GND pin.
25
XTAL
Crystal oscillator connection pin (clock input
VDD
pin).
VDD
5pF
25
20pF
10pF
26
SD
Station detector pin.
30
INT
Test monitor pin.
VDD
VDD
30 26
27
NC
No connection.
28
NC
No connection.
29
NC
No connection.
Continued on next page.
No.A1928-6/18
LC01707PLF
Continued from preceding page.
Pin No. Pin name
31
SCL
Function
Equivalent circuit
Serial data clock input.
VDD
31
32
SDA
VDD
Serial data input/ output.
VDD
32
33
VDD
34
SMETER
PLL_logic supply voltage pin.
S-meter output.
VDD
VDD
34
35
VDD
IF supply voltage pin
36
LPFO
Demodulator output
VDD
(After band limit).
VDD
4pF
36
37
DEMOO
Demodulator output.
VDD
VDD
20.4pF
37
1pF
38
LPFI
Demodulator signal input pin.
VDD
38
+
-
1pF
Continued on next page.
No.A1928-7/18
LC01707PLF
Continued from preceding page.
Pin No. Pin name
39
DEMOC
Function
Equivalent circuit
Capacitor connection pin for demodulator
39
detection.
VDD
VDD
40
NC
No connection.
41
NC
No connection.
42
NC
No connection.
43
NC
No connection.
44
GND
GND pin.
44
VSS
(Pin_3)
VSS
(Pin_8)
VSS
(Pin_12)
VSS
(Pin_17)
VSS
(Pin_24)
No.A1928-8/18
LC01707PLF
Communication specification
Communication specifications are indicated as below:
Serial Interface (I2C-bus);
Sending and receiving data through I2C-bus that consists of two bus lines of a serial data line (SDA) and a serial clock
line (SCL). This bus enables 8-bit bi-directional serial data to transmit at the maximum speed of 400kbits (fast mode).
This is not compatible with Hs mode.
Terms used in I2C
The following terms are used in I2C
Terms
Description
Transmitter
Device to send data to the bus
Receiver
Device to receive from the bus
Master
Device to start data transmission, generate signal, and terminate data transmission
Slave
Device of which address is designated master
[Start] and [Stop] conditions
[Start] condition is required at the start of data communication and [Stop] condition at the end of data communication.
The condition in which the SDA line changes from [H] to [L] with SCL at [H] is called the [Start] condition. The
condition in which the SDA line changes from [L] to [H] with SCL at [H] is called the [Start] condition.
SDA
SDA
SCL
SCL
S
P
START condition
STOP condition
Data transmission
The length of each byte which is output to SDA line is always 8 bits. An acknowledge bit is needed after each byte.
Data is transmitted sequentially from the most significant bit (MSB).
During the data transfer, the slave address is transmitted after the [Start] condition (S).
Data transfer is always ended by the [Stop] condition (P) generated by the master.
ACK:acknowledgement
ACK signal from receiver
ACK signal from slave
P
D7
SDA
D6
D1
D0
Sr
MSB
Byte complate,
interrupt within slave
SCL
S
or
Sr
1
2
7
8
9
Clock pulse for ACK
START or repeated
START condition
Clock line held low while
interrrupts are serviced
1
2
3-8
9
Sr
or
P
Clock pulse for ACK
STOP or repeated
START condition
No.A1928-9/18
LC01707PLF
Acknowledge (Receive acknowledge)
When the master generates the acknowledge clock pulse, the transmitter opens the SDA line. (SDA line enters the [H]
state.) When the acknowledge clock pulse is in the [H] state, the receiver sets the SDA line to [L] each time it receives
one byte (eight bits) data. When the master works as a receiver, the master informs the slave of the end of data by
omitting acknowledge at the end of data sent from the slave.
Release the SDA line(HIGH)
Data output by
transmitter
NACK(master is receiver)
Data output by
receiver
ACK(master is transmitter)
SCL from
master
8
2
1
9
S
ACK:acknowledgement
NACK:not acknowledgement
START condition
Clock pulse for ACK
Software reset
If the communication is interrupted (microcomputer reset, etc.), it is possible to communicate normally by entering the
below signals and resetting the CPU in software.
*These signal timings restore the communication after its interruption. The register setting is never reset.
*Software reset command is incompatible with I2C-bus format.
SDA
SCL
S
START condition
1
2
7
8
9
Sr
Repeated START condition
P
STOP cindition
No.A1928-10/18
LC01707PLF
Electrical specification and timing for I/O stages
t1
t2
SD
t4
t7
t2
t1
t9
SC
t10
t5
t6
t3
t8
START
condition
STOP
condition
Bus line characteristics
Characteristic
Symbol
FAST-MODE
min
SCL clock frequency
fSCL
Fall time of SDA and SCL
t1
Rise time of SDA and SCL
t2
unit
Example at
SCL = 100kHz
max
400
kHz
20+0.1Cb
300
ns
20+0.1Cb
300
ns
100
SCL “H” time
t3
0.6
μs
SCL “L” time
t4
1.3
μs
7
[Start] condition holding time
t5
0.6
μs
10
Data holding time for I2C bus device
t6
0.3
μs
Data setup time
t7
0.1
μs
3
[Stop] condition setup time
t8
0.6
μs
10
20
Bus free time between [Stop] and [Start]
t9
1.3
μs
[Start] condition setup time
t10
0.6
μs
Bus line capacitive load
Cb
Serial interface voltage level
Characteristic
400
3
pF
VDD: Communication bus voltage
min
max
unit
High level input voltage
0.7VDD
VDD
V
Low level input voltage
0.0
0.3VDD
V
High level output voltage (open drain)
VDD *2
Low level output voltage (open drain)
0.0
0.2VDD
V
V
*2: Output impedance of open drain becomes high at the high level output voltage.
Output voltage equals to VDD (voltage =VDD) since drain is pulled up to VDD.
No.A1928-11/18
LC01707PLF
Definition of each bit
1) Slave address
The slave address consists of seven-bit fixed address "1110000" or "1110001", which is unique to a chip, and the
eighth-bit data direction bit(R/W). Sending (writing) is processed when the data direction bit is"0", and receiving
(reading) is processed when it is "1". The fixed address is set to "1110001" at DEVAR=1 and it is set to "1110000" at
DEVAR=0.
MSB
LSB
1
1
1
0
1/0
0
0
R/W
R/W
Fixed address
BIT
READ
1
WRITE
0
2) Register address
Since the total number of internal register is 34, 2-bit data set on the MSB side becomes invalid. 64 addresses are
accepted 6 bits are used, but only 34 registers are used.
MSB
LSB
0
0
A5
A4
Invakid address
A3
A2
A1
A0
Valid address
3) Register data
Each register data consists of eight bits.
D7
MSB
D6
D5
D4
D3
D2
D1
D0
LSB
No.A1928-12/18
LC01707PLF
Command Format
1) Individual registers data writing
Invalid address
Write
SDA
S
1
1
1
START condition
1/0
1/0
0
0
0
1/0
0
Slave address
1/0
1/0
1/0
1/0
0
0
0
1/0
Register data
0
1/0
1/0
1/0
1/0
1/0
Register address
ACK
1/0
1/0
0
ACK
P
ACK STOP condition
From slave to master
From master to slave
2) Individual registers data reading
Invalid address
Write
SDA
S
1
1
1
START condition
0
0
0
1/0
0
Slave address
0
0
0
1/0
1/0
1/0
1/0
1/0
1/0
Register address
ACK
0
ACK
Read
Sr
1
Repeated
START condition
1
1
0
0
Slave address
From master to slave
0
1/0
1
0
1/0
1/0
ACK
1/0
1/0
1/0
Register data
1/0
1/0
1/0
1
P
NACK STOP
condition
From slave to master
No.A1928-13/18
LC01707PLF
Register Map 1
* HEX value is set by default.
: Unused BIT
Register
address
00h
01h
BIT
Bit name
Function
Bit operation
Read/
Binary
Hex
Write
value
value
7
0
6
SD_SL[2]
5
SD_SL[1]
4
SD_SL[0]
3
DWAG[3]
2
DWAG[2]
1
DWAG[1]
0
DWAG[0]
SD level detection setting
Wide band AGC level setting
0:DRS0 1:DRS1 2:DRS2 3:DRS3 4:DRS4 5:DRS5 6:DRS6 7:DRS7
0:15.6mVp-p 1:31.3mVp-p 2:46.9mVp-p 3:62.5mVp-p
4:78.1mVp-p 5:93.8mVp-p 6:109.4mVp-p 7:125.0mVp-p
8:140.6mVp-p 9:156.3mVp-p 10:171.9mVp-p 11:187.5mVp-p
12:203.1mVp-p 13:218.8mVp-p 14:234.4mVp-p 15:250mVp-p
R/W
0
R/W
0
R/W
0
R/W
0
R/W
0
R/W
0
h’00
R/W
0
7
0
6
0
5
0
4
0
3
0
h’00
2
02h
0
1
IMSD_SL[1]
0
IMSD_SL[0]
7
CLKIN
XTAL current setting
1:Normal 0:Twice
R/W
6
DLOCKSEL
LOCKDET output waveform selection
1:Number of comparing 6 0:Munber of comparing 3
R/W
0
5
DFSEL[1]
Phase comparison frequency selection
0:100kHz 1:50kHz 2:50kHz 3:25kHz
R/W
0
R/W
1
Entire circuit enable
1:ON 0:OFF (Entire circuit OFF)
R/W
1
Narrow band AGC level setting
0:35mVp-p 1:111mVp-p 2:187mVp-p 3:263mVp-p
4:339mVp-p 5:415mVp-p 6:491mVp-p 7:567mVp-p
(When the setting value is ether 0 or 1 and MSK=4%, error is
detected in BER.)
R/W
0
R/W
0
4
DFSEL[0]
3
ENPE
Unused
0
0
1
h’99
03h
2
DNGA[2]
1
DNGA[1]
0
DNGA[0]
R/W
1
7
ENCPLEVEL
Charge pump level comparison selection
1:ON 0:OFF
R/W
1
6
DENPRO
Program counter enable
1:ON 0:OFF
R/W
1
5
DENPD
Phase comparison enable
1:ON 0:OFF
R/W
1
4
DENCP
Charge pump enable
1:ON 0:OFF
R/W
1
3
DENREF
S-meter enable
1:ON 0:OFF
R/W
1
2
DENXTAL
XTAL enable
1:ON 0:OFF
R/W
1
1
DEBDEMO
Demodulator enable
1:ON 0:OFF
R/W
1
0
ENFST
Complex BPF block, IF AGC block enable
1:ON 0:OFF
R/W
1
7
DENLEVELDET
Capacitor bank control circuit enable
1:ON 0:OFF
R/W
0
1
h’FF
04h
6
ENRFMIX
RFMIX enable
1:ON 0:OFF
R/W
5
ENIFLPF
IF LPF enable
1:ON 0:OFF
R/W
1
4
ENDET
Wide band AGC, Narrow band AGC block enable
1:ON 0:OFF
R/W
1
3
ENLNA
LNA block enable
1:ON 0:OFF
R/W
1
h’7F
05h
2
DENSMETER
Reference counter enable
1:ON 0:OFF
R/W
1
1
DLOEN
Local oscillation enable
1:ON 0:OFF
R/W
1
0
DENPLL
PLL block enable
1:ON 0:OFF
R/W
1
7
0
6
0
5
0
4
0
3
0
h’03
2
06h
0
1
DNBAGC
IF AGC detection selector (Narrow band AGC)
1:ON 0:OFF
R/W
0
DWBAGC
RF AGC detection selector (Wide band AGC)
1:ON 0:OFF
R/W
1
1
7
DF0OSC[7]
R/W
1
6
DF0OSC[6]
Capacitor band value
Oscillation frequency adjustment for master time
constant setting
R/W
0
5
DF0OSC[5]
R/W
0
4
DF0OSC[4]
R/W
0
3
DF0OSC[3]
R/W
0
2
DF0OSC[2]
R/W
0
1
DF0OSC[1]
R/W
0
0
DF0OSC[0]
R/W
0
7
DBPFO[7]
R/W
1
6
DBPFO[6]
R/W
0
5
DBPFO[5]
R/W
0
4
DBPFO[4]
R/W
0
3
DBPFO[3]
R/W
0
2
DBPFO[2]
R/W
0
1
DBPFO[1]
R/W
0
0
DBPFO[0]
R/W
0
h’80
07h
Capacitor bank value
Complex BPF F0 adjustment
h’80
No.A1928-14/18
LC01707PLF
Register Map 2
* HEX value is set by default.
: Unused BIT
Register
address
08h
BIT
Bit name
Function
Bit operation
Capacitor bank value
nd
2 IF BPF f0 adjustment
Read/
Binary
Hex
Write
value
value
7
D2BPF[7]
R/W
1
6
D2BPF[6]
R/W
0
5
D2BPF[5]
R/W
0
4
D2BPF[4]
R/W
0
3
D2BPF[3]
R/W
0
2
D2BPF[2]
R/W
0
1
D2BPF[1]
R/W
0
0
D2BPF[0]
R/W
h’80
09h
7
0
0
6
0
5
DDEMOG[1]
4
DDEMOG[0]
3
DMONOC[3]
2
1
0
DLL demodulator loop gain setting
R/W
0
R/W
1
R/W
0
DMONOC[2]
R/W
1
DMONOC[1]
R/W
1
DMONOC[0]
R/W
h’17
0Ah
Mono multi center setting
1
7
0
6
0
5
0
4
0
3
0
h’02
2
0Bh
0
1
ENIMRSSI
XTAL OSC FET size setting
1:Normal 0:Twice
R/W
1
0
DIQC
Complex BPF injection changeover
1:lower 0:upper
R/W
0
6
DBL[6]
IQ balance adjustment
5
7
0
R/W
1
DBL[5]
R/W
0
4
DBL[4]
R/W
0
3
DBL[3]
R/W
0
2
DBL[2]
R/W
0
1
DBL[1]
R/W
0
0
DBL[0]
R/W
h’40
0Ch
0
7
0
6
0
5
0
4
0
h’0A
3
0Dh
DCP1REF[3]
Charge pump output current value setting
0:0.1mA 1:0.2mA 2:0.3mA 3:0.4mA 4:0.5mA 5:0.6mA 6:0.7mA
R/W
1
7:0.8mA 8:0.9mA A:1mA
E: unused F: unused
B:1.1mA C:1.2mA D: unused
2
DCP1REF[2]
R/W
0
1
DCP1REF[1]
R/W
1
0
DCP1REF[0]
R/W
0
7
DPCNT_L[7]
R/W
*
6
DPCNT_L[6]
R/W
*
5
DPCNT_L[5]
R/W
*
4
DPCNT_L[4]
R/W
*
3
DPCNT_L[3]
R/W
*
2
DPCNT_L[2]
R/W
*
1
DPCNT_L[1]
R/W
*
0
DPCNT_L[0]
R/W
*
7
DPCNT_H[7]
6
N value of frequency divider (low 8 bits)
N value of frequency divider =
st
((4 × received frequency)±(4 × 1 IF frequency)) /
(4 channel × step frequency)
st
* 1 IF frequency is 1.2MHz
h’**
0Eh
N value of frequency divider (high 8 bits)
R/W
*
DPCNT_H[6]
R/W
*
5
DPCNT_H[5]
R/W
*
4
DPCNT_H[4]
R/W
*
3
DPCNT_H[3]
R/W
*
2
DPCNT_H[2]
R/W
*
1
DPCNT_H[1]
R/W
*
0
DPCNT_H[0]
R/W
*
7
DCBANK_L[7]
R/W
0
6
DCBANK_L[6]
R/W
0
5
DCBANK_L[5]
R/W
0
4
DCBANK_L[4]
R/W
0
3
DCBANK_L[3]
R/W
0
2
DCBANK_L[2]
R/W
0
1
DCBANK_L[1]
R/W
0
0
DCBANK_L[0]
R/W
0
h’**
0Fh
Local oscillator capacitor bank setting (low 8 bits)
h’00
No.A1928-15/18
LC01707PLF
Register Map 3
* HEX value is set by default.
: Unused BIT
Register
address
10h
BIT
Bit name
Function
Bit operation
Read/
Binary
Hex
Write
value
value
7
0
6
0
5
0
4
0
3
0
2
0
h’01
1
0
11h
0
DCBANK_H[8]
Local oscillator capacitor bank setting (high 1 bit)
R/W
1
7
0
6
0
5
0
4
DCBEN
Unused
3
DLOALC[3]
Local oscillation level setting
2
1
0
0
h’0F
12h
R/W
1
DLOALC[2]
R/W
1
DLOALC[1]
R/W
1
DLOALC[0]
R/W
7
1
0
6
DENIFCOUNT
Frequency counter (analog block) enable
1:ON 0:OFF
R/W
5
DENF0OSC
f0 detection oscillation circuit enable
1:ON 0:OFF
R/W
0
0
4
DENIFFREQ
Logic part reference clock enable
1:ON 0:OFF
R/W
0
h’00
3
13h
0
2
DSCTCOUNT[2]
1
DSCTCOUNT[1]
0
DSCTCOUNT[0]
Count frequency selection
0:unused 1:IF frequency 2:prescaler frequency
R/W
0
3:freacaler frequency 4:f0 detection oscillation frequency
5:f0 detection oscillation frequency 6:unused 7:IF frequency
R/W
0
R/W
0
7
0
6
0
5
0
4
0
3
0
h’01
14h
2
CTE
Counter start trigger
1:ON (frequency counter start) Charge to 0 automatically
R/W
1
GT[1]
Frequency counter gate time selection
0:4ms 1:8ms 2:32ms 3:64ms
R/W
0
0
GT[0]
R/W
1
R
*
R
*
LO_COUNT value (low 8 bits)
0
7
LOFQ_L[7]
6
LOFQ_L[6]
5
LOFQ_L[5]
R
*
4
LOFQ_L[4]
R
*
3
LOFQ_L[3]
R
*
2
LOFQ_L[2]
R
*
1
LOFQ_L[1]
R
*
0
LOFQ_L[0]
R
*
7
LOFQ_H[7]
6
Measurement frequency = counter value / GT[ms]
h’00
15h
LO_COUNT value (upper 8 bits)
R
*
LOFQ_H[6]
R
*
5
LOFQ_H[5]
R
*
4
LOFQ_H[4]
R
*
3
LOFQ_H[3]
R
*
2
LOFQ_H[2]
R
*
1
LOFQ_H[1]
R
*
0
LOFQ_H[0]
R
h’00
16h
7
*
0
6
0
5
COUNTSEL
0
4
LOCKDETSEL
1
3
LOCKDET_DIG
0
h’10
17h
2
LOCKDET
LOCK detection
1:LOCK 0:UNLOCK
R/W
1
PHLEVEL[1]
Charge pump voltage level detection
0:less than 0.5V 1:0.5V to 2.8V 2:Unused 3:more than 2.8V
R/W
0
0
0
PHLEVEL[0]
R/W
0
7
*
6
*
5
*
4
*
h’0*
3
IMRSSI[3]
2
1
0
Reset detection circuit
0:reset 1:reset cancellation
R
*
IMRSSI[2]
R
*
IMRSSI[1]
R
*
IMRSSI[0]
R
*
No.A1928-16/18
LC01707PLF
Register Map 4
* HEX value is set by default.
: Unused BIT
Register
address
18h
BIT
Bit name
Function
Bit operation
Read/
Binary
Hex
Write
value
value
7
0
6
DRS[6]
5
S-meter detection level
Detection range can be changed by setting to DNGA (02h)
R
*
DRS[5]
R
*
4
DRS[4]
R
*
3
DRS[3]
R
*
2
DRS[2]
R
*
1
DRS[1]
R
*
0
DRS[0]
R
*
7
IFCOUNT_L[7]
R
*
6
IFCOUNT_L[6]
R
*
5
IFCOUNT_L[5]
R
*
4
IFCOUNT_L[4]
R
*
3
IFCOUNT_L[3]
R
*
2
IFCOUNT_L[2]
R
*
1
IFCOUNT_L[1]
R
*
0
IFCOUNT_L[0]
R
*
7
IFCOUNT_H[7]
6
h’**
19h
IF count value (low 8 bits)
nd
2
IF frequency measurement results
h’**
1Ah
IF count value (high 8 bits)
R
*
IFCOUNT_H[6]
R
*
5
IFCOUNT_H[5]
R
*
4
IFCOUNT_H[4]
R
*
3
IFCOUNT_H[3]
R
*
2
IFCOUNT_H[2]
R
*
1
IFCOUNT_H[1]
R
*
0
IFCOUNT_H[0]
R
*
7
IMCOUNT_L[7]
R
*
6
IMCOUNT_L[6]
R
*
5
IMCOUNT_L[5]
R
*
4
IMCOUNT_L[4]
R
*
3
IMCOUNT_L[3]
R
*
2
IMCOUNT_L[2]
R
*
1
IMCOUNT_L[1]
R
*
0
IMCOUNT_L[0]
R
*
7
IMCOUNT_H[7]
R
*
6
IMCOUNT_H[6]
R
*
5
IMCOUNT_H[5]
R
*
4
IMCOUNT_H[4]
R
*
3
IMCOUNT_H[3]
R
*
2
IMCOUNT_H[2]
R
*
1
IMCOUNT_H[1]
R
*
0
IMCOUNT_H[0]
R
*
7
F0_L[7]
f0 detection oscillation frequency count value (low 8 bits)
R
*
6
F0_L[6]
Frequency measurement result for master time constant
setting
R
*
5
F0_L[5]
R
*
4
F0_L[4]
R
*
3
F0_L[3]
R
*
2
F0_L[2]
R
*
1
F0_L[1]
R
*
0
F0_L[0]
R
*
7
F0_H[7]
R
*
6
F0_H[6]
R
*
5
F0_H[5]
R
*
4
F0_H[4]
R
*
3
F0_H[3]
R
*
2
F0_H[2]
R
*
1
F0_H[1]
R
*
0
F0_H[0]
R
h’**
1Bh
Unused
h’**
1Ch
Unused
h’**
1Dh
h’**
1Eh
f0 detection oscillation frequency count value (high 8
bits)
h’**
1Fh
*
7
0
6
0
5
0
4
0
3
0
h’02
2
DOUTSEL
Register for TEST
R/W
0
1
DCNTEST
Register for TEST
R/W
1
0
DOUTTEST
Register for TEST
R/W
0
Continued on next page.
No.A1928-17/18
LC01707PLF
Continued from preceding page.
Register
address
20h
21h
BIT
Bit name
Function
Bit operation
Read/
Binary
Hex
Write
value
value
7
0
6
ERR2
Local oscillator capacitor bank control error flag 2
R/W
5
ERR1
Local oscillator capacitor bank control error flag 1
R/W
0
4
DCOSEL2
Local oscillator capacitor bank value changeover
1:cap bank control value 0:I C input value
R/W
0
3
DCOSEL1
Local oscillator capacitor bank control process
changeover
1:correcting process after sequential comparison
0:No correcting process after sequential comparison
R/W
1
2
DCOSEL0
Local oscillator capacitor bank control process
changeover (micro alignment)
1:micro adjustment process 0:No micro adjustment process
R/W
0
1
DWAITSEL[1]
PLL operation check wait time after local oscillator
capacitor bank adjustment
0:200μs 1: 400μs 2:800μs 3:1600μs
0
DWAITSEL[0]
2
0
R/W
1
R/W
0
7
h’0A
0
6
0
5
DENINT
Register for TEST
R/W
0
4
MASKSEL
Register for TEST
R/W
0
3
LOSEL
Register for TEST
R/W
1
2
INTPH
Register for TEST
R/W
0
1
INTIM
Register for TEST
R/W
1
0
INTLO
Register for TEST
R/W
0
7
TESTSEL[2]
Register for TEST
R/W
0
6
TESTSEL[1]
Register for TEST
R/W
0
5
TESTSEL[0]
Register for TEST
R/W
0
4
DSW
PLL loop filter ON/OFF
1:ON 0:OFF
R/W
1
3
TIMESEL2[1]
Local oscillator capacitor bank control correcting circuit
operation clock setting
0:200μs 1: 400μs 2:800μs 3:1600μs
R/W
0
2
TIMESEL2[0]
R/W
1
1
TIMESEL[1]
Local oscillator capacitor bank control sequential
comparison control operation clock setting
0:10μs 1: 20μs 2:40μs 3:80μs
0
TIMESEL[0]
h’0A
22h
h’15
R/W
0
R/W
1
SD pin specification
SD voltage level VDD: supply voltage
item
min
max
unit
High level output voltage
VDD-0.8
VDD
V
Low level output voltage
0
0.4
V
SANYO Semiconductor Co.,Ltd. assumes no responsibility for equipment failures that result from using
products at values that exceed, even momentarily, rated values (such as maximum ratings, operating condition
ranges, or other parameters) listed in products specifications of any and all SANYO Semiconductor Co.,Ltd.
products described or contained herein.
SANYO Semiconductor Co.,Ltd. strives to supply high-quality high-reliability products, however, any and all
semiconductor products fail or malfunction with some probability. It is possible that these probabilistic failures or
malfunction could give rise to accidents or events that could endanger human lives, trouble that could give rise
to smoke or fire, or accidents that could cause damage to other property. When designing equipment, adopt
safety measures so that these kinds of accidents or events cannot occur. Such measures include but are not
limited to protective circuits and error prevention circuits for safe design, redundant design, and structural
design.
In the event that any or all SANYO Semiconductor Co.,Ltd. products described or contained herein are
controlled under any of applicable local export control laws and regulations, such products may require the
export license from the authorities concerned in accordance with the above law.
No part of this publication may be reproduced or transmitted in any form or by any means, electronic or
mechanical, including photocopying and recording, or any information storage or retrieval system, or otherwise,
without the prior written consent of SANYO Semiconductor Co.,Ltd.
Any and all information described or contained herein are subject to change without notice due to
product/technology improvement, etc. When designing equipment, refer to the "Delivery Specification" for the
SANYO Semiconductor Co.,Ltd. product that you intend to use.
Upon using the technical information or products described herein, neither warranty nor license shall be granted
with regard to intellectual property rights or any other rights of SANYO Semiconductor Co.,Ltd. or any third
party. SANYO Semiconductor Co.,Ltd. shall not be liable for any claim or suits with regard to a third party's
intellctual property rights which has resulted from the use of the technical information and products mentioned
above.
This catalog provides information as of October, 2011. Specifications and information herein are subject
to change without notice.
PS No.A1928-18/18