Si4702/03-C19
B R O A D C A S T F M R A D I O T U N ER F O R P O R TAB L E A P P L I C AT I O N S
Features
Pb-free/RoHS
Ordering Information:
See page 37.
Pin Assignments
(Top View)
compliant
RDS/RBDS Processor
(Si4703)
Integrated crystal oscillator
Si4702/03-GM
Applications
Description
The Si4702/03 integrates the complete tuner function from antenna input
to stereo audio output for FM broadcast radio reception.
NC
1
FMIP
2
RFGND
3
GND
4
RST
5
Functional Block Diagram
Si4702/03
FMIP
RFGND
LNA
PGA
Q
ADC
AGC
0 / 90
DSP
FILTER
DEMOD
MPX
AUDIO
LOW-IF
DAC
DAC
GPIO
32.768 kHz
ROUT
REG
XTAL
OSC
RSSI
CONTROL
INTERFACE
VA
VD
AFC
TUNE
RDS
(Si4703)
RST
SDIO
SCLK
SEN
19
18
17
16
15 GND
14 LOUT
GND
PAD
13 ROUT
12 GND
6
7
8
9
10
11 VD
U.S. and International Patents
pending—Abbreviated U.S. Patent
List:
7272375, 7127217, 7272373,
7272374, 7321324, 7339503,
GPIO
VIO
RCLK
2.7–5.5 V
LOUT
AMPLIFIER
I
ADC
7339504, 7355476, 7426376,
CONTROLLER
Headphone
Cable
20
VIO
Portable navigation
Consumer electronics
RCLK
USB FM radio
PDAs
Notebook PCs
SDIO
SEN
Cellular handsets
MP3 players
Portable radios
SCLK
VA
GPIO3
Adaptive noise suppression
Volume control
Line-level analog output
32.768 kHz reference clock
2-wire and 3-wire control
interface
2.7 to 5.5 V supply voltage
Integrated LDO regulator
allows direct connection to
battery
3 x 3 mm 20-pin QFN package
GPIO2
GPIO1
This data sheet applies to
Si4702/03-C Firmware 19 and
greater
Worldwide FM band support
(76–108 MHz)
Digital low-IF receiver
Frequency synthesizer with
integrated VCO
Seek tuning
Automatic frequency control (AFC)
Automatic gain control (AGC)
Excellent overload immunity
Signal strength measurement
Programmable de-emphasis
(50/75 µs)
NC
7436252, 7471940
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TA B L E O F C O N T E N T S
Section
Page
1. Electrical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3
2. Typical Application Schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
3. Bill of Materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
4. Functional Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
4.1. Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
4.2. FM Receiver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14
4.3. General Purpose I/O Pins . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
4.4. RDS/RBDS Processor and Functionality . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
4.5. Stereo Audio Processing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
4.6. Tuning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
4.7. Reference Clock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17
4.8. Control Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17
4.9. Reset, Powerup, and Powerdown . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
4.10. Audio Output Summation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
4.11. Initialization Sequence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
4.12. Programming Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
5. Register Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
6. Register Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22
7. Pin Descriptions: Si4702/03-C19 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
8. Ordering Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37
9. Package Markings (Top Marks) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
9.1. Si4702 Top Mark . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
9.2. Si4703 Top Mark . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
9.3. Top Mark Explanation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
10. Package Outline: Si4702/03-C19 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
11. PCB Land Pattern: Si4702/03-C19 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
Additional Reference Resources . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .42
Document Change List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .43
Contact Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .44
2
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1. Electrical Specifications
Table 1. Recommended Operating Conditions
Parameter
Symbol
Test Condition
Min
Typ
Max
Unit
Digital Supply Voltage
VD
2.7
—
5.5
V
Analog Supply Voltage
VA
2.7
—
5.5
V
Interface Supply Voltage
VIO
1.5
—
3.6
V
Digital Power Supply Power-Up
Rise Time
VDRISE
10
—
—
µs
Analog Power Supply Power-Up
Rise Time
VARISE
10
—
—
µs
Interface Power Supply Power-Up
Rise Time
VIORISE
10
—
—
µs
TA
–20
25
85
°C
Ambient Temperature
Note: All minimum and maximum specifications are guaranteed and apply across the recommended operating conditions.
Typical values apply at VD = VA = 3.3 V and 25 °C unless otherwise stated. Parameters are tested in production unless
otherwise stated.
Table 2. Absolute Maximum Ratings1,2
Parameter
Symbol
Value
Unit
Digital Supply Voltage
VD
–0.5 to 5.8
V
Analog Supply Voltage
VA
–0.5 to 5.8
V
Interface Supply Voltage
VIO
–0.5 to 3.9
V
Input Current3
IIN
±10
mA
3
Input Voltage
VIN
–0.3 to (VIO + 0.3)
V
Operating Temperature
TOP
–40 to 95
°C
Storage Temperature
TSTG
–55 to 150
°C
0.4
VpK
RF Input Level4
Notes:
1. Permanent device damage may occur if the above Absolute Maximum Ratings are exceeded. Functional operation
should be restricted to the conditions as specified in the operational sections of this data sheet. Exposure beyond
recommended operating conditions for extended periods may affect device reliability.
2. The Si4702/03-C19 device is a high-performance RF integrated circuit with an ESD rating of < 2 kV HBM. Handling
and assembly of this device should only be done at ESD-protected workstations.
3. For input pins SCLK, SEN, SDIO, RST, RCLK, GPIO1, GPIO2, and GPIO3.
4. At RF input pins.
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Table 3. DC Characteristics1
(VD = VA = 2.7 to 3.6 V, VIO = 1.5 to 3.6 V, TA = –20 to 85 °C)
Parameter
Symbol
Test Condition
Min
Typ
Max
Unit
IA
ENABLE = 1
—
10.8
—
mA
ID
ENABLE = 1
—
3.3
—
mA
Interface Operating Supply Current2
IIO
ENABLE = 1
—
0.3
—
mA
Total Operating Supply Current2,3,4,5
IOP
ENABLE = 1
Low SNR signal
—
15.3
16.8
mA
Total Operating Supply Current2,3,4
IOP
ENABLE = 1
—
14.4
15.9
mA
Total Operating Supply Current2,3,4,6
IOP
ENABLE = 1
RDS = 1
—
14.9
16.4
mA
Total Operating Supply Current2,3,4,6
IOP
ENABLE = 1
RDS = 1,
Low SNR signal
—
15.8
16.8
mA
Analog Powerdown Supply Current2,7
IAPD
ENABLE = 0
—
3.5
—
µA
Digital Powerdown Supply Current2,7
IDPD
ENABLE = 0
—
2.5
—
µA
Interface Powerdown Supply Current2,7
IIOPD
ENABLE = 0
SCLK, RCLK inactive
—
2.5
—
µA
IPD
ENABLE = 0
—
8.5
12.0
µA
Analog Operating Supply Current2
Current2
Digital Operating Supply
Total Powerdown Supply Current2,7
8
VIH
0.7 x VIO
—
VIO + 0.3
V
Low Level Input Voltage8
VIL
–0.3
—
0.3 x VIO
V
8
IIH
VIN = VIO = 3.6 V
–10
—
10
µA
Low Level Input Current8
IIL
VIN = 0 V,
VIO = 3.6 V
–10
—
10
µA
High Level Output Voltage9
VOH
IOUT = 500 µA
0.8 x VIO
—
—
V
Low Level Output Voltage9
VOL
IOUT = –500 µA
—
—
0.2 x VIO
V
High Level Input Voltage
High Level Input Current
Notes:
1. All specifications for the Si4702 unless otherwise noted.
2. Refer to Register 02h, "Power Configuration" on page 23 for ENABLE bit description.
3. The LNA is automatically switched to higher current mode for optimum sensitivity in low SNR conditions.
4. Analog and digital supply currents are simultaneously adjusted based on SNR level.
5. Stereo and RDS functionality are disabled at low SNR levels.
6. RDS functionality only available for Si4703.
7. Refer to Section 4.9. "Reset, Powerup, and Powerdown" on page 18.
8. For input pins SCLK, SEN, SDIO, RST, RCLK, GPIO1, GPIO2, and GPIO3.
9. For output pins SDIO, GPIO1, GPIO2, and GPIO3.
4
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Table 4. Reset Timing Characteristics (Busmode Select Method 1)1,2,3
Parameter
Symbol
Test Condition
Min
Typ
Max
Unit
RSTpulse width and GPIO3 Setup
to RST
tGSRST14
GPIO3 = 0
100
—
—
µs
SEN and SDIO Setup to RST
tSRST1
30
—
—
ns
SEN, SDIO, and GPIO3 Hold from
RST
tHRST1
30
—
—
ns
Notes:
1. When selecting 2-wire Mode, the user must ensure that a 2-wire start condition (falling edge of SDIO while SCLK is
high) does not occur within 300 ns before the rising edge of RST.
2. When selecting 3-wire Mode, the user must ensure that a rising edge of SCLK does not occur within 300 ns before the
rising edge of RST.
3. When selecting 2-wire mode, the user must ensure that SCLK is high during the rising edge of RST, and stays high
until after the 1st start condition.
4. If GPIO3 is driven low by the user, then minimum tGSRST1 is only 30 ns. If GPIO3 is hi-Z, then minimum tGSRST1 is
100 µs, to provide time for an on-chip 1 M pulldown device (active while RST is low) to discharge the pin.
tGSRST1
tHRST1
70%
RST
GPIO3
SEN,
SDIO
30%
70%
30%
tSRST1
70%
30%
Figure 1. Reset Timing Parameters for Busmode Select Method 1 (GPIO3 = 0)
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Table 5. Reset Timing Characteristics (Busmode Select Method 2)1,2,3
Parameter
Symbol
Test Condition
Min
Typ
Max
Unit
GPIO1 and GPIO3 Setup to RST
tSRST2
GPIO3 = 1
30
—
—
ns
GPIO1 and GPIO3 Hold from RST
tHRST2
30
—
—
ns
Notes:
1. When selecting 2-wire Mode, the user must ensure that a 2-wire start condition (falling edge of SDIO while SCLK is
high) does not occur within 300 ns before the rising edge of RST.
2. When selecting 3-wire Mode, the user must ensure that a rising edge of SCLK does not occur within 300 ns before the
rising edge of RST.
3. When selecting 2-wire mode, the user must ensure that SCLK is high during the rising edge of RST, and stays high until
after the 1st start condition.
tSRST2
RST
70%
GPIO3
70%
GPIO1
70%
tHRST2
30%
30%
30%
Figure 2. Reset Timing Parameters for Busmode Select Method 2 (GPIO3 = 1)
6
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Table 6. 3-Wire Control Interface Characteristics
(VD = VA = 2.7 to 5.5 V, VIO = 1.5 to 3.6 V, TA = –20 to 85 °C)
Parameter
Symbol
Test Condition
Min
Typ
Max
Unit
SCLK Frequency
fCLK
0
—
2.5
MHz
SCLK High Time
tHIGH
25
—
—
ns
SCLK Low Time
tLOW
25
—
—
ns
tS
20
—
—
ns
SDIO Input to SCLKHold
tHSDIO
10
—
—
ns
SEN Input to SCLKHold
tHSEN1
10
—
—
ns
SEN Input to SCLKHold
tHSEN2
10
—
—
ns
SDIO Input, SEN to SCLKSetup
SCLKto SDIO Output Valid
tCDV
Read
2
—
25
ns
SCLKto SDIO Output High Z
tCDZ
Read
2
—
25
ns
Note: When selecting 3-wire Mode, the user must ensure that a rising edge of SCLK does not occur within 300 ns before the
rising edge of RST.
SCLK
70%
SEN
70%
SDIO
70%
30%
t HSDIO
tS
tHIGH
tLOW
tHSEN1
tS
tHSEN2
30%
30%
A7
A6-A5,
R/W,
A4-A1
Address In
A0
D15
D14-D1
D0
Data In
Figure 3. 3-Wire Control Interface Write Timing Parameters
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SCLK
70%
SEN
70%
30%
tHSDIO
tS
tCDV
t HSEN1
tS
tCDZ
tHSEN2
30%
80%
SDIO
A7
20%
A6-A5,
R/W,
A4-A1
Address In
A0
D15
½ Cycle Bus
Turnaround
D14-D1
D0
Data Out
Figure 4. 3-Wire Control Interface Read Timing Parameters
8
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Table 7. 2-Wire Control Interface Characteristics1,2,3
(VD = VA = 2.7 to 5.5 V, VIO = 1.5 to 3.6 V, TA = –20 to 85 °C)
Parameter
Symbol
Test Condition
Min
Typ
Max
Unit
SCLK Frequency
fSCL
0
—
400
kHz
SCLK Low Time
tLOW
1.3
—
—
µs
SCLK High Time
tHIGH
0.6
—
—
µs
SCLK Input to SDIO Setup
(START)
tSU:STA
0.6
—
—
µs
SCLK Input to SDIO Hold (START)
tHD:STA
0.6
—
—
µs
SDIO Input to SCLK Setup
tSU:DAT
100
—
—
ns
SDIO Input to SCLK Hold4,5
tHD:DAT
0
—
900
ns
SCLK input to SDIO Setup (STOP)
tSU:STO
0.6
—
—
µs
STOP to START Time
tBUF
1.3
—
—
µs
SDIO Output Fall Time
tf:OUT
20 + 0.1 Cb
—
250
ns
SDIO Input, SCLK Rise/Fall Time
tf:IN
tr:IN
20 + 0.1 Cb
—
300
ns
SCLK, SDIO Capacitive Loading
Cb
—
—
50
pF
Input Filter Pulse Suppression
tSP
—
—
50
ns
Notes:
1. When VIO = 0 V, SCLK and SDIO are low impedance.
2. When selecting 2-wire mode, the user must ensure that SCLK is high during the rising edge of RST, and stays high
until after the 1st start condition.
3. When selecting 2-wire mode, the user must ensure that a 2-wire start condition (falling edge of SDIO while SCLK is
high) does not occur within 300 ns before the rising edge of RST.
4. As a 2-wire transmitter, the Si4702/03-C19 delays SDIO by a minimum of 300 ns from the VIH threshold of SCLK to
comply with the 0 ns tHD:DAT specification.
5. The maximum tHD:DAT has only to be met when fSCL = 400 kHz. At frequencies below 400 KHz, tHD:DAT may be
violated so long as all other timing parameters are met.
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SCLK
70%
SDIO
70%
tSU:STA tHD:STA
tLOW
START
tr:IN
tHIGH
tr:IN
tf:IN
tSP
tSU:STO
tBUF
30%
30%
tf:IN,
tf:OUT
tHD:DAT tSU:DAT
STOP
START
Figure 5. 2-Wire Control Interface Read and Write Timing Parameters
SCLK
A6-A0,
R/W
SDIO
START
ADDRESS + R/W
D7-D0
ACK
DATA
D7-D0
ACK
DATA
ACK
STOP
Figure 6. 2-Wire Control Interface Read and Write Timing Diagram
10
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Table 8. FM Receiver Characteristics1,2
(VD = VA = 2.7 to 5.5 V, VIO = 1.5 to 3.6 V, TA = –20 to 85 °C)
Parameter
Symbol
Min
Typ
Max
Unit
76
—
108
MHz
(S+N)/N = 26 dB
—
1.7
3.5
µVEMF
Sensitivity (50 matching
network)3,4,5,6,8
(S+N)/N = 26 dB
—
1.1
—
µVEMF
RDS Sensitivity8
f = 2 kHz,
RDS BLER < 5%
—
15
—
µVEMF
3
4
5
k
4
5
6
pF
104
106
—
dBµVEMF
Input Frequency
Sensitivity
Test Condition
fRF
3,4,5,6,7
LNA Input Resistance8,9
LNA Input
Input
Capacitance8,9
IP38,10
Suppression3,4,5,8,9
m = 0.3
40
55
—
dB
Adjacent Channel Selectivity
±200 kHz
35
50
—
dB
Alternate Channel Selectivity
±400 kHz
60
70
—
dB
In-band
35
—
—
dB
—
32.768
—
kHz
Frequency Spacing =
100 or 200 kHz
–200
—
200
Frequency Spacing =
50 kHz
–50
—
50
72
80
90
mVRMS
—
—
1
dB
AM
Spurious Response
Rejection8
RCLK Frequency
RCLK Frequency
Tolerance11
Audio Output Voltage3,4,5,9
Audio Output L/R
Imbalance3,4,9,12
Audio Frequency Response Low
8
–3 dB
—
—
30
Hz
8
–3 dB
15
—
—
kHz
25
—
—
dB
Audio Frequency Response High
Audio Stereo Separation
3,9,12
ppm
Notes:
1. Additional testing information is available in Application Note AN234. Volume = maximum for all tests.
2. Important Note: To ensure proper operation and FM receiver performance, follow the guidelines in “AN231:
Si4700/01/02/03 Headphone and Antenna Interface.” Skyworks will evaluate schematics and layouts for qualified
customers.
3. FMOD = 1 kHz, 75 µs de-emphasis
4. MONO = 1, and L = R unless noted otherwise.
5. f = 22.5 kHz.
6. BAF = 300 Hz to 15 kHz, A-weighted.
7. Typical sensitivity with headphone matching network.
8. Guaranteed by characterization.
9. VEMF = 1 mV.
10. |f2 – f1| > 1 MHz, f0 = 2 x f1 – f2. AGC is disabled by setting AGCD = 1. Refer to "6. Register Descriptions" on page 22.
11. The channel spacing is selected with the SPACE[1:0] bits. Refer to "6. Register Descriptions" on page 22. Seek/Tune
timing is guaranteed for 100 and 200 kHz channel spacing.
12. f = 75 kHz.
13. The de-emphasis time constant is selected with the DE bit. Refer to "6. Register Descriptions" on page 22.
14. At LOUT and ROUT pins.
15. Do not enable STC interrupts before the powerup time is complete. If STC interrupts are enabled before the powerup
time is complete, an interrupt will be generated within the powerup interval when the initial default tune operation is
complete. See "AN230: Si4700/01/02/03 Programmer’s Guide" for more information.
16. Minimum and maximum at room temperature (25 °C).
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Table 8. FM Receiver Characteristics1,2 (Continued)
(VD = VA = 2.7 to 5.5 V, VIO = 1.5 to 3.6 V, TA = –20 to 85 °C)
Parameter
Symbol
Mono/Stereo Switching Level3,8,12
Test Condition
Min
Typ
Max
Unit
BLNDADJ = 10
10 dB stereo separation
—
34
—
dBµVEMF
55
60
—
dB
—
58
—
dB
—
0.1
0.5
%
DE = 0
70
75
80
µs
Audio Mono S/N3,4,5,6,9
Audio Stereo S/N
3,5,6,8
BLNDADJ = 10
3,4,9,12
Audio THD
13
De-emphasis Time Constant
DE = 1
45
50
54
µs
14
ENABLE = 1
0.65
0.8
0.9
V
Audio Common Mode Voltage14
ENABLE = 0
AHIZEN = 1
—
0.5 x VIO
—
V
RL
Single-ended
10
—
—
k
CL
Single-ended
—
—
50
pF
SPACE[1:0] = 0x, RCLK
tolerance = 200 ppm,
(x = 0 or 1)
—
—
60
ms/
channel
From powerdown
(Write ENABLE bit to 1)
—
—
110
ms
Input levels of 8 and
60 dBµV at RF input
–3
—
3
dB
Audio Common Mode Voltage
Audio Output Load Resistance8,14
Audio Output Load Capacitance
Seek/Tune Time
8,11
Powerup Time15
RSSI Offset16
8,14
Notes:
1. Additional testing information is available in Application Note AN234. Volume = maximum for all tests.
2. Important Note: To ensure proper operation and FM receiver performance, follow the guidelines in “AN231:
Si4700/01/02/03 Headphone and Antenna Interface.” Skyworks will evaluate schematics and layouts for qualified
customers.
3. FMOD = 1 kHz, 75 µs de-emphasis
4. MONO = 1, and L = R unless noted otherwise.
5. f = 22.5 kHz.
6. BAF = 300 Hz to 15 kHz, A-weighted.
7. Typical sensitivity with headphone matching network.
8. Guaranteed by characterization.
9. VEMF = 1 mV.
10. |f2 – f1| > 1 MHz, f0 = 2 x f1 – f2. AGC is disabled by setting AGCD = 1. Refer to "6. Register Descriptions" on page 22.
11. The channel spacing is selected with the SPACE[1:0] bits. Refer to "6. Register Descriptions" on page 22. Seek/Tune
timing is guaranteed for 100 and 200 kHz channel spacing.
12. f = 75 kHz.
13. The de-emphasis time constant is selected with the DE bit. Refer to "6. Register Descriptions" on page 22.
14. At LOUT and ROUT pins.
15. Do not enable STC interrupts before the powerup time is complete. If STC interrupts are enabled before the powerup
time is complete, an interrupt will be generated within the powerup interval when the initial default tune operation is
complete. See "AN230: Si4700/01/02/03 Programmer’s Guide" for more information.
16. Minimum and maximum at room temperature (25 °C).
12
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2. Typical Application Schematic
GPIO1
19
GPIO1
18
GPIO2
17
GPIO3
16
VA
NC
20
GPIO2
GPIO3
LOUT
ROUT
7
SCLK
8
SDIO
9
RCLK
10
VIO
GND
PAD
15
GND
14
LOUT
13
ROUT
12
GND
11
VD
6
SEN
FMIP
RFGND
1
NC
2
FMIP
3
RFGND
4
GND
5
RST
VBATTERY
2.7 to 5.5 V
C1
RST
SEN
SCLK
SDIO
RCLK
VIO
1.5 to 3.6 V
X1
GPIO3
C2
RCLK
C3
Optional: for crystal oscillator option
Notes:
1. Place C1 close to VD pin.
2. All grounds connect directly to GND plane on PCB.
3. Pins 1 and 20 are no connects, leave floating.
4. Important Note: FM Receiver performance is subject to adherence to antenna design guidelines in “AN231:
Si4700/01/02/03 Headphone and Antenna Interface.” Failure to use these guidelines will negatively affect the
performance of the Si4702/03-C19, particularly in weak signal and noisy environments. Skyworks will evaluate
schematics and layouts for qualified customers.
5. Pin 2 connects to the antenna interface, refer to “AN231: Si4700/01/02/03 Headphone and Antenna Interface.”
6. Place Si4702/03-C19 as close as possible to antenna jack and keep the FMIP trace as short as possible.
7. Refer to Si4702/03 Internal Crystal Oscillator Errata.
8. Refer to "AN299: External 32.768 kHz Crystal Oscillator."
3. Bill of Materials
Component(s)
Value/Description
Supplier(s)
C1
Supply bypass capacitor, 22 nF, ±20%, Z5U/X7R
Murata
U1
Si4702/03-C19 FM Radio Tuner
Skyworks Solutions, Inc.
C2, C3
Crystal load capacitors, 22 pF, ±5%, COG (Optional: for
crystal oscillator option)
Venkel
X1
32.768 kHz crystal (Optional: for crystal oscillator option)
Epson
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4. Functional Description
RFGND
LNA
PGA
Q
ADC
AGC
0 / 90
DSP
FILTER
DEMOD
MPX
AUDIO
LOW-IF
DAC
DAC
GPIO
32.768 kHz
ROUT
GPIO
VA
VD
AFC
TUNE
REG
XTAL
OSC
RDS
(Si4703)
RSSI
CONTROL
INTERFACE
VIO
RCLK
2.7 - 5.5 V
LOUT
RST
SDIO
SCLK
CONTROLLER
I
ADC
FMIP
AMPLIFIER
Si4702/03
Headphone
Cable
SEN
Figure 7. Si4702/03-C19 FM Receiver Block Diagram
4.1. Overview
The Si4702/03-C19 extends the Skyworks Si4700/01
FM tuner family and further increases the ease and
attractiveness of adding FM radio reception to mobile
devices through small size and board area, minimum
component count, flexible programmability, and superior
proven performance. Si4702/03-C19 software is
backwards compatible to existing Si4700/01 and
Si4702/03-B16 FM Tuner designs. The Si4702/03-C19
benefits from proven digital integration and 100%
CMOS process technology, resulting in a completely
integrated solution. It is the industry's smallest footprint
FM tuner IC requiring only 10 mm2 board space and
one external bypass capacitor.
The device offers significant programmability, and
caters to the subjective nature of FM listeners and
variable FM broadcast environments world-wide
through a simplified programming interface and mature
functionality.
The Si4703-C incorporates a digital processor for the
European Radio Data System (RDS) and the US Radio
Broadcast Data System (RBDS) including all required
symbol decoding, block synchronization, error
detection, and error correction functions.
RDS enables data such as station identification and
song name to be displayed to the user. The Si4703-C
offers a detailed RDS view and a standard view,
allowing adopters to selectively choose granularity of
RDS status, data, and block errors. Si4703-C software
is backwards compatible to the proven Si4701, adopted
by leading cell-phone and MP3 manufacturers worldwide.
The Si4702/03-C19 is based on the superior, proven
performance of Skyworks' Aero architecture offering
unmatched interference rejection and leading
sensitivity. The device uses the same programming
interface as the Si4701 and supports multiple busmodes. Power management is also simplified with an
integrated regulator allowing direct connection to a 2.7
to 5.5 V battery.
The Si4702/03-C19 device’s high level of integration
and complete FM system production testing increases
quality to manufacturers, improves device yields, and
simplifies device manufacturing and final testing.
4.2. FM Receiver
The
Si4702/03-C19’s
patented
digital
low-IF
architecture reduces external components and
eliminates the need for factory adjustments. The receive
(RX) section integrates a low noise amplifier (LNA)
supporting the worldwide FM broadcast band (76 to
108 MHz). An automatic gain control (AGC) circuit
controls the gain of the LNA to optimize sensitivity and
rejection of strong interferers. For testing purposes, the
AGC can be disabled with the AGCD bit. Refer to
Section 6. "Register Descriptions" on page 22 for
additional programming and configuration information.
The Si4702/03-C19 architecture and antenna design
increases system performance. To ensure proper
performance and operation, designers should refer to
the guidelines in "AN231: Si4700/01/02/03 Headphone
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and Antenna Interface". Conformance to these
guidelines will help to ensure excellent performance
even in weak signal or noisy environments.
BLERB, BLERC, and BLERD) are unused and will read
0. This mode is backward compatible with earlier
firmware revisions.
An image-reject mixer downconverts the RF signal to
low-IF. The quadrature mixer output is amplified,
filtered, and digitized with high resolution analog-todigital converters (ADCs). This advanced architecture
achieves superior performance by using digital signal
processing (DSP) to perform channel selection, FM
demodulation, and stereo audio processing compared
to traditional analog architectures.
Setting the RDS mode bit high places the device in RDS
verbose mode. The device sets RDSS high when
synchronized and low when synchronization is lost. If
the device is synchronized, RDS ready (RDSR) will be
set for a minimum of 40 ms when a RDS group has
been received. Setting the RDS interrupt enable
(RDSIEN) bit and GPIO2[1:0] = 01 will configure GPIO2
to pulse low for a minimum of 5 ms if the device is
synchronized and an RDS group has been received.
BLERA, BLERB, BLERC and BLERD provide blockerror levels for the RDS group. The number of bit errors
in each block within the group is encoded as follows:
00 = no errors, 01 = one to two errors, 10 = three to five
errors, 11 = six or more errors. Six or more errors in a
block indicate the block is uncorrectable and should not
be used.
The pins GPIO1–3 can serve multiple functions. GPIO1
and GPIO3 can be used to select between 2-wire and 3wire modes for the control interface as the device is
brought out of reset. See Section “4.9. Reset, Powerup,
and Powerdown”. After powerup of the device, the
GPIO1–3 pins can be used as general purpose
inputs/outputs, and the GPIO2–3 pins can be used as
interrupt request pins for the seek/tune or RDS ready
functions and as a stereo/mono indicator respectively.
See register 04h, bits [5:0] in Section “6. Register
Descriptions” for information on the control of these
pins. It is recommended that the GPIO2–3 pins not be
used as interrupt request outputs until the powerup time
has completed (see Section “4.9. Reset, Powerup, and
Powerdown”). The GPIO3 pin has an internal, 1 M,
±15% pull-down resistor that is only active while RST is
low. General purpose input/output functionality is
available regardless of the state of the VA and VD
supplies, or the ENABLE and DISABLE bits.
4.4. RDS/RBDS Processor and
Functionality
The Si4703 implements an RDS/RBDS* processor for
symbol decoding, block synchronization, error
detection, and error correction. RDS functionality is
enabled by setting the RDS bit. The device offers two
RDS modes, a standard mode and a verbose mode.
The primary difference is increased visibility to RDS
block-error levels and synchronization status with
verbose mode.
Setting the RDS mode (RDSM) bit low places the
device in standard RDS mode (default). The device will
set the RDS ready (RDSR) bit for a minimum of 40 ms
when a valid RDS group has been received. Setting the
RDS interrupt enable (RDSIEN) bit and GPIO2[1:0] = 01
will configure GPIO2 to pulse low for a minimum of 5 ms
when a valid RDS group has been received. If an invalid
group is received, RDSR will not be set and GPIO2 will
not pulse low. In standard mode RDS synchronization
(RDSS) and block error rate A, B, C and D (BLERA,
*Note: RDS/RBDS is referred to only as RDS throughout the
remainder of this document.
4.5. Stereo Audio Processing
The output of the FM demodulator is a stereo
multiplexed (MPX) signal. The MPX standard was
developed in 1961 and is used worldwide. Today's MPX
signal format consists of left + right (L+R) audio, left –
right (L–R) audio, a 19 kHz pilot tone, and RDS/RBDS
data as shown in Figure 8.
Modulation Level
4.3. General Purpose I/O Pins
Mono Audio
Left + Right
0
Stereo
Pilot
15 19 23
Stereo Audio
Left - Right
38
RDS/
RBDS
53
57
Frequency (kHz)
Figure 8. MPX Signal Spectrum
The Si4702/03-C19's integrated stereo decoder
automatically decodes the MPX signal. The 0 to 15 kHz
(L+R) signal is the mono output of the FM tuner. Stereo
is generated from the (L+R), (L-R), and a 19 kHz pilot
tone. The pilot tone is used as a reference to recover
the (L-R) signal. Separate left and right channels are
obtained by adding and subtracting the (L+R) and (L-R)
signals, respectively. The Si4703-C uses frequency
information from the 19 kHz stereo pilot to recover the
57 kHz RDS/RBDS signal.
Adaptive noise suppression is employed to gradually
combine the stereo left and right audio channels to a
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mono (L+R) audio signal as the signal quality degrades
to maintain optimum sound fidelity under varying
reception conditions. The signal level range over which
the stereo to mono blending occurs can be adjusted by
setting the BLNDADJ[1:0] register. Stereo/mono status
can be monitored with the ST register bit and mono
operation can be forced with the MONO register bit.
Pre-emphasis and de-emphasis is a technique used by
FM broadcasters to improve the signal-to-noise ratio of
FM receivers by reducing the effects of high frequency
interference and noise. When the FM signal is
transmitted, a pre-emphasis filter is applied to
accentuate the high audio frequencies. All FM receivers
incorporate a de-emphasis filter which attenuates high
frequencies to restore a flat frequency response. Two
time constants, 50 or 75 µs, are used in various regions.
The de-emphasis time constant is programmable with
the DE bit.
High-fidelity stereo digital-to-analog converters (DACs)
drive analog audio signals onto the LOUT and ROUT
pins. The audio output may be muted with the DMUTE
bit. Volume can be adjusted digitally with the
VOLUME[3:0] bits. The volume dynamic range can be
set to either –28 dBFS (default) or –58 dBFS by setting
VOLEXT=1.
The soft mute feature is available to attenuate the audio
outputs and minimize audible noise in weak signal
conditions. The soft mute attack and decay rate can be
adjusted with the SMUTER[1:0] bits where 00 is the
fastest setting. The soft mute attenuation level can be
adjusted with the SMUTEA[1:0] bits where 00 is the
most attenuated. The soft mute disable (DSMUTE) bit
may be set high to disable this feature.
4.6. Tuning
The Si4702/03-C19 uses Skyworks’ patented and
proven frequency synthesizer technology including a
completely integrated VCO. The frequency synthesizer
generates the quadrature local oscillator signal used to
downconvert the RF input to a low intermediate
frequency. The VCO frequency is locked to the
reference clock and adjusted with an automatic
frequency control (AFC) servo loop during reception.
The tuning frequency is defined as:
Freq (MHz) = Spacing (kHz) Channel + Bottom of Band (MHz)
Channel spacing of 50, 100 or 200 kHz is selected with
bits SPACE[1:0]. The channel is selected with bits
CHAN[9:0]. Band selection for Japan, Japan wideband,
or Europe/U.S./Asia is set with BAND[1:0]. The tuning
operation begins by setting the TUNE bit. After tuning
completes, the seek/tune complete (STC) bit will be set
and the RSSI level is available by reading bits
RSSI[7:0]. The TUNE bit must be set low after the STC
bit is set high in order to complete the tune operation
and clear the STC bit.
Seek tuning searches up or down for a channel with an
RSSI greater than or equal to the seek threshold set
with the SEEKTH[7:0] bits. In addition, optional SNR
and/or impulse noise detector criteria may be used to
qualify valid stations. The SKSNR[3:0] bits set the SNR
threshold required. The SKCNT[3:0] bits set the impulse
noise threshold. Using the extra seek qualifiers can
reduce false stops and, in combination with lowering the
RSSI seek threshold, increase the number of found
stations. The SNR and impulse noise detectors are
disabled by default for backwards compatibility.
Two seek modes are available. When the seek mode
(SKMODE) bit is low and a seek is initiated, the device
seeks through the band, wraps from one band edge to
the other, and continues seeking. If the seek operation
is unable to find a valid channel, the seek failure/band
limit (SF/BL) bit is set high and the device returns to the
channel selected before the seek operation began.
When the SKMODE bit is high and a seek is initiated,
the device seeks through the band until the band limit is
reached and the SF/BL bit is set high. A seek operation
is initiated by setting the SEEK and SEEKUP bits. After
the seek operation completes, the STC bit is set, and
the RSSI level and tuned channel are available by
reading bits RSSI[7:0] and bits READCHAN[9:0]. During
a seek operation READCHAN[9:0] is also updated and
may be read to determine and report seek progress.
The STC bit is set after the seek operation completes.
The channel is valid if the seek operation completes and
the SF/BL bit is set low. At other times, such as before a
seek operation or after a seek completes and the SF/BL
bit is set high, the channel is valid if the AFC Rail
(AFCRL) bit is set low and the value of RSSI[7:0] is
greater than or equal to SEEKTH[7:0]. Note that if a
valid channel is found but the AFCRL bit is set, the
audio output is muted as in the softmute case discussed
in Section “4.5. Stereo Audio Processing”. The SEEK bit
must be set low after the STC bit is set high in order to
complete the seek operation. Setting the STC bit low
clears STC status and SF/BL bits. The seek operation
may be aborted by setting the SEEK bit low at any time.
The device can be configured to generate an interrupt
on GPIO2 when a tune or seek operation completes.
Setting the seek/tune complete (STCIEN) bit and
GPIO2[1:0] = 01 will configure GPIO2 for a 5 ms low
interrupt when the STC bit is set by the device.
For additional recommendations on optimizing the seek
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function, consult "AN284:
Adjustability and Settings."
Si4700/01/02/03
Seek
4.7. Reference Clock
The Si4702/03-C19 accepts a 32.768 kHz reference
clock to the RCLK pin. The reference clock is required
whenever the ENABLE bit is set high. Refer to Table 3,
“DC Characteristics1,” on page 4 for input switching
voltage
levels
and
Table 8,
"FM
Receiver
Characteristics," on page 11 for frequency tolerance
information.
An onboard crystal oscillator is available to generate the
32.768 kHz reference when an external crystal and load
capacitors are provided. Refer to 2. "Typical Application
Schematic" on page 13. The oscillator must be enabled
or disabled while in powerdown (ENABLE = 0) as shown
in Figure 9, “Initialization Sequence,” on page 20.
Register 07h, bits [13:0], must be preserved as 0x0100
while in powerdown. Note that RCLK voltage levels are
not specified. The typical RCLK voltage level, when the
crystal oscillator is used, is 0.3 Vpk-pk.
4.7.1. Si4702/03-C19 Internal Crystal Oscillator
Errata
The Si4702/03-C19 seek/tune performance may be
affected by data activity on the SDIO bus when using
the integrated internal oscillator. SDIO activity results
from polling the tuner for status or communicating with
other devices that share the SDIO bus. If there is SDIO
bus activity while the Si4702/03-C19 is performing the
seek/tune function, the crystal oscillator may experience
jitter, which may result in mistunes and/or false stops.
SDIO activity during all other operational states does
not affect performance.
For best seek/tune results, Skyworks recommends that
all SDIO data traffic be suspended during Si4702/03C19 seek and tune operations. This is achieved by
keeping the bus quiet for all other devices on the bus,
and delaying tuner polling until the tune or seek
operation is complete. The STC (seek/tune complete)
interrupt should be used instead of polling to determine
when a seek/tune operation is complete. Please refer to
Sections 4.6. "Tuning" on page 16 and 5. "Register
Summary" on page 21 for specified seek/tune times and
register use guidelines.
The layout guidelines in Si4700/01/02/03 Evaluation
Board User’s Guide, Section 8.3 Si4702/03-C19
Daughter Card should be followed to help ensure robust
FM performance.
Please refer to the posted Si4702/03 Internal Crystal
Oscillator Errata for more information.
4.8. Control Interface
Two-wire slave-transceiver and three-wire interfaces
are provided for the controller IC to read and write the
control registers. Refer to “4.9. Reset, Powerup, and
Powerdown” for a description of bus mode selection.
Registers may be written and read when the VIO supply
is applied regardless of the state of the VD or VA
supplies. RCLK is not required for proper register
operation.
4.8.1. 3-Wire Control Interface
For three-wire operation, a transfer begins when the
SEN pin is sampled low by the device on a rising SCLK
edge. The control word is latched internally on rising
SCLK edges and is nine bits in length, comprised of a
four bit chip address A7:A4 = 0110b, a read/write bit
(write = 0 and read = 1), and a four bit register address,
A3:A0. The ordering of the control word is A7:A5, R/W,
A4:A0. Refer to Section 5. "Register Summary" on page
21 for a list of all registers and their addresses.
For write operations, the serial control word is followed
by a 16-bit data word and is latched internally on rising
SCLK edges.
For read operations, a bus turn-around of half a cycle is
followed by a 16-bit data word shifted out on rising
SCLK edges and is clocked into the system controller
on falling SCLK edges. The transfer ends on the rising
SCLK edge after SEN is set high. Note that 26 SCLK
cycles are required for a transfer, however, SCLK may
run continuously.
For details on timing specifications and diagrams, refer
to Table 6, “3-Wire Control Interface Characteristics,” on
page 7, Figure 3, “3-Wire Control Interface Write Timing
Parameters,” on page 7, and Figure 4, “3-Wire Control
Interface Read Timing Parameters,” on page 8.
4.8.2. 2-wire Control Interface
For two-wire operation, the SCLK and SDIO pins
function in open-drain mode (pull-down only) and must
be pulled up by an external device. A transfer begins
with the START condition (falling edge of SDIO while
SCLK is high). The control word is latched internally on
rising SCLK edges and is eight bits in length, comprised
of a seven bit device address equal to 0010000b and a
read/write bit (write = 0 and read = 1).
The device acknowledges the address by driving SDIO
low after the next falling SCLK edge, for 1 cycle. For
write operations, the device acknowledge is followed by
an eight bit data word latched internally on rising edges
of SCLK. The device acknowledges each byte of data
written by driving SDIO low after the next falling SCLK
edge, for 1 cycle. An internal address counter
automatically increments to allow continuous data byte
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writes, starting with the upper byte of register 02h,
followed by the lower byte of register 02h, and onward
until the lower byte of the last register is reached. The
internal address counter then automatically wraps
around to the upper byte of register 00h and proceeds
from there until continuous writes end. Data transfer
ends with the STOP condition (rising edge of SDIO
while SCLK is high). After every STOP condition, the
internal address counter is reset.
For read operations, the device acknowledge is
followed by an eight bit data word shifted out on falling
SCLK edges. An internal address counter automatically
increments to allow continuous data byte reads, starting
with the upper byte of register 0Ah, followed by the
lower byte of register 0Ah, and onward until the lower
byte of the last register is reached. The internal address
counter then automatically wraps around to the upper
byte of register 00h and proceeds from there until
continuous reads cease. After each byte of data is read,
the controller IC must drive an acknowledge (SDIO = 0)
if an additional byte of data will be requested. Data
transfer ends with the STOP condition. After every
STOP condition, the internal address counter is reset.
For details on timing specifications and diagrams, refer
to
Table 7,
“2-Wire
Control
Interface
Characteristics1,2,3,” on page 9, Figure 5, “2-Wire
Control Interface Read and Write Timing Parameters,”
on page 10 and Figure 6, “2-Wire Control Interface
Read and Write Timing Diagram,” on page 10.
4.9. Reset, Powerup, and Powerdown
Driving the RST pin low will disable the Si4702/03-C19
and its control bus interface, and reset the registers to
their default settings. Driving the RST pin high will bring
the device out of reset. As the device is brought out of
reset, it will sample the state of several pins to select
between 2-wire and 3-wire control interface operation,
using one of two busmode selection methods.
Busmode selection method 1 requires the use of the
GPIO3, SEN, and SDIO pins. To use this busmode
selection method, the GPIO3 and SDIO pins must be
sampled low by the device on the rising edge of RST.
The user may either drive the GPIO3 pin low externally,
or leave the pin floating. If the pin is not driven by the
user, it will be pulled low by an internal 1 M resistor
which is active only while RST is low. The user must
drive the SEN and SDIO pins externally to the proper
state.
To select 2-wire operation, the SEN pin must be
sampled high by the device on the rising edge of RST.
To select 3-wire operation, the SEN pin must be
sampled low by the device on the rising edge of RST.
Refer to Table 4, “Reset Timing Characteristics
(Busmode Select Method 1)1,2,3,” on page 5 and
Figure 1, “Reset Timing Parameters for Busmode
Select Method 1 (GPIO3 = 0),” on page 5.
Busmode selection method 2 requires only the use of
the GPIO3 and GPIO1 pins. This is the recommended
busmode selection method when not using the internal
crystal oscillator. To use this busmode selection
method, the GPIO3 pin must be sampled high on the
rising edge of RST. The user must drive the GPIO3 pin
high externally, or pull it up with a resistor of 100 k or
less. The user must also drive the GPIO1 pin externally
to the proper state.
To select 2-wire operation, the GPIO1 pin must be
sampled high by the device on the rising edge of RST.
To select 3-wire operation, the GPIO1 pin must be
sampled low by the device on the rising edge of RST.
Refer to Table 5, “Reset Timing Characteristics
(Busmode Select Method 2)1,2,3,” on page 6 and
Figure 2, “Reset Timing Parameters for Busmode
Select Method 2 (GPIO3 = 1),” on page 6.
Table 9 summarizes the two bus selection methods.
18
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Table 9. Selecting 2-Wire or 3-Wire Control
Interface Busmode Operation1,2,3
4.10. Audio Output Summation
2
X
X
1
16
2
Xtal Oscillator
NA
NA
NA
NA
NA
The audio outputs LOUT and ROUT may be
capacitively summed with another device. Setting the
audio high-Z enable (AHIZEN) bit maintains a dc bias of
0.5 x VIO on the LOUT and ROUT pins to prevent the
ESD diodes from clamping to the VIO or GND rail in
response to the output swing of the other device. The
bias point is set with a 370 k resistor to VIO and GND.
Register 07h containing the AHIZEN bit must not be
written during the powerup sequence and only takes
effect when in powerdown and VIO is supplied. In
powerup the LOUT and ROUT pins are set to the
common mode voltage specified in Table 8, “FM
Receiver Characteristics1,2,” on page 11, regardless of
the state of AHIZEN. Bits 13:0 of register 07h must be
preserved as 0x0100 while in powerdown and as
0x3C04 while in powerup.
2
Xtal Oscillator
NA
NA
NA
NA
NA
4.11. Initialization Sequence
Busmode
SEN SDIO GPIO1 GPIO32
Select Method
1
1
0
1
0
0
Bus
mode
X
04
3-wire
X
04
2-wire
3-wire
1
Xtal Oscillator
0
0
X
05
1
Xtal Oscillator
1
0
X
05
2-wire
2
X
X
0
16
3-wire
2-wire
Notes:
1. All parameters applied on rising edge of RST.
2. When selecting 2-wire mode, the user must ensure
that SCLK is high during the rising edge of RST, and
stays high until the 1st start condition.
3. GPIO3 is internally pulled down with a 1 M resistor.
4. GPIO3 should be externally driven low, set to high-Z
(10 M or greater pull-up) or float.
5. GPIO3 should be left floating.
6. GPIO3 should be externally driven high (100 kor
smaller pull-up).
When proper voltages are applied to the Si4702/03C19, the ENABLE and DISABLE bits in Register 02h
can be used to select between powerup and
powerdown modes. When voltage is first applied to the
device, ENABLE = 0 and DISABLE = 0. Setting
ENABLE = 1 and DISABLE = 0 puts the device in
powerup mode. To power down the device, disable RDS
to prevent any unpredictable behavior (Si4703 only),
then write ENABLE and DISABLE bits to 1.
After being written to 1, both bits will be cleared as part
of the internal device powerdown sequence. To put the
device back into powerup mode, set ENABLE = 1 and
DISABLE = 0 as described above. The ENABLE bit
should never be written to a 0.
Refer to Figure 9, “Initialization Sequence,” on page 20.
To initialize the device:
1. Supply VA and VD.
2. Supply VIO while keeping the RST pin low. Note that
steps 1 and 2 may be reversed. Power supplies may
be sequenced in any order.
3. Select 2-wire or 3-wire control interface bus mode
operation as described in Section 4.9. "Reset,
Powerup, and Powerdown" on page 18.
4. Provide RCLK. Steps 3 and 4 may be reversed when
using an external oscillator. Refer to AN230 when
using internal oscillator.
5. Set the ENABLE bit high and the DISABLE bit low to
powerup the device. Software should wait for the
powerup time (as specified by Table 8, “FM Receiver
Characteristics1,2,” on page 11) before continuing
with normal part operation.
To power down the device:
1. (Optional) Set the AHIZEN bit high to maintain a dc
bias of 0.5 x VIO volts at the LOUT and ROUT pins
while in powerdown, but preserve the states of the
other bits in Register 07h. Note that in powerup the
LOUT and ROUT pins are set to the common mode
voltage specified in Table 8 on page 11, regardless
of the state of AHIZEN.
2. Set the ENABLE bit high and the DISABLE bit high
to place the device in powerdown mode. Note that all
register states are maintained so long as VIO is
supplied and the RST pin is high.
3. (Optional) Remove RCLK.
4. Remove VA and VD supplies as needed.
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To power up the device (after power down):
1. Note that VIO is still supplied in this scenario. If VIO is
not supplied, refer to device initialization procedure
above.
2. (Optional) Set the AHIZEN bit low to disable the dc
bias of 0.5 x VIO volts at the LOUT and ROUT pins,
but preserve the states of the other bits in Register
07h. Note that in powerup the LOUT and ROUT pins
are set to the common mode voltage specified in
Table 8 on page 11, regardless of the state of
AHIZEN.
3. Supply VA and VD.
4. Provide RCLK. Refer to AN230 when using internal
oscillator.
5. Set the ENABLE bit high and the DISABLE bit low to
powerup the device.
VA,VD Supply
VIO Supply
RST Pin
RCLK Pin
ENABLE Bit
1
2
3
4
5
Figure 9. Initialization Sequence
4.12. Programming Guide
Refer to "AN230: Si4700/01 Programming Guide" for
control interface programming information.
20
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�DEVICEID
CHIPID
POWERCFG
CHANNEL
SYSCONFIG1
SYSCONFIG2
SYSCONFIG3
TEST1
TEST2
BOOTCONFIG
STATUSRSSI
READCHAN
RDSA
RDSB
RDSC
RDSD
00h
01h
02h
03h
04h
05h
06h
07h
08h
09h
0Ah
0Bh
0Ch
0Dh
0Eh
0Fh
STCIEN
RDSIEN2
STC
AHIZEN
BLERB[1:0]2,3
RDSR2
XOSCEN
SMUTER[1:0]
0
DMUTE
PN[3:0]
D14
TUNE
DSMUTE
D15
DE
0
D9
0
0
D7
ST
VOLEXT
0
SEEK
RDSD[15:0]2
RDSC[15:0]2
RDSB[15:0]2
DISABLE
READCHAN[9:0]
D2
0
ENABLE
D0
GPIO1[1:0]
0
D1
SKCNT[3:0]
VOLUME[3:0]
GPIO2[1:0]
0
FIRMWARE[5:0]
D3
RSSI[7:0]
SPACE[1:0]
GPIO3[1:0]
SKSNR[3:0]
BAND[1:0]
0
D4
CHAN[9:0]
0
D5
MFGID[11:0]
D6
BLNDADJ[1:0]
0
DEV[3:0]
D8
RDSA[15:0]2
BLERA[1:0]2,3
AGCD
0
BLERD[1:0]2,3
AFCRL RDSS2,3
BLERC[1:0]2,3
SF/BL
D10
RDSM2 SKMODE SEEKUP
D11
SEEKTH[7:0]
RDS2
0
0
D12
SMUTEA[1:0]
0
0
MONO
REV[5:0]
D13
Notes:
1. Any register not listed is reserved and should not be written. Writing to reserved registers may result in unpredictable behavior.
2. Si4703 only.
3. Available in RDS verbose mode only.
Name
Reg1
5. Register Summary
Si4702/03-C19
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6. Register Descriptions
Register 00h. Device ID
Bit
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
Name
PN[3:0]
MFGID[11:0]
Type
R
R
D4
D3
D2
D1
D0
D4
D3
D2
D1
D0
Reset value = 0x1242
Bit
Name
Function
15:12
PN[3:0]
Part Number.
0x01 = Si4702/03
11:0
MFGID[11:0]
Manufacturer ID.
0x242
Register 01h. Chip ID
Bit
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
Name
REV[5:0]
DEV[3:0]
FIRMWARE[5:0]
Type
R
R
R
Si4702C19 Reset value = 0x1053 if ENABLE = 1
Si4702C19 Reset value = 0x1000 if ENABLE = 0
Si4703C19 Reset value = 0x1253 if ENABLE = 1
Si4703C19 Reset value = 0x1200 if ENABLE = 0
Bit
Name
15:10
REV[5:0]
Chip Version.
0x04 = Rev C
9:6
DEV[3:0]
Device.
0 before powerup = Si4702.
0001 after powerup = Si4702.
1000 before powerup = Si4703.
1001 after powerup = Si4703.
5:0
Function
FIRMWARE[5:0] Firmware Version.
0 before powerup.
Firmware version after powerup = 010011.
22
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Register 02h. Power Configuration
Bit
D15
D14
D13 D12 D11
Name DSMUTE DMUTE MONO
Type
R/W
R/W
R/W
0
R/W
D10
D9
D8
RDSM SKMODE SEEKUP SEEK
R/W
R/W
R/W
R/W
D7
D6
0
DISABLE
R/W
R/W
D5 D4 D3 D2 D1
0
0
0
0
0
R/W R/W R/W R/W R/W
D0
ENABLE
R/W
Reset value = 0x0000
Bit
Name
Function
15
DSMUTE
14
DMUTE
Mute Disable.
0 = Mute enable (default).
1 = Mute disable.
13
MONO
Mono Select.
0 = Stereo (default).
1 = Force mono.
12
Reserved
11
RDSM
10
SKMODE
Seek Mode.
0 = Wrap at the upper or lower band limit and continue seeking (default).
1 = Stop seeking at the upper or lower band limit.
9
SEEKUP
Seek Direction.
0 = Seek down (default).
1 = Seek up.
8
SEEK
Softmute Disable.
0 = Softmute enable (default).
1 = Softmute disable.
Reserved.
Always write to 0.
RDS Mode.
0 = Standard (default).
1 = Verbose.
Refer to “4.4. RDS/RBDS Processor and Functionality”.
Seek.
0 = Disable (default).
1 = Enable.
Notes:
1. Seek begins at the current channel, and goes in the direction specified with the SEEKUP
bit. Seek operation stops when a channel is qualified as valid according to the seek
parameters, the entire band has been searched (SKMODE = 0), or the upper or lower
band limit has been reached (SKMODE = 1).
2. The STC bit is set high when the seek operation completes and/or the SF/BL bit is set
high if the seek operation was unable to find a channel qualified as valid according to the
seek parameters. The STC and SF/BL bits must be set low by setting the SEEK bit low
before the next seek or tune may begin.
3. Seek performance for 50 kHz channel spacing varies according to RCLK tolerance.
Skyworks recommends ±50 ppm RCLK crystal tolerance for 50 kHz seek performance.
4. A seek operation may be aborted by setting SEEK = 0.
7
Reserved
Reserved.
Always write to 0.
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Bit
Name
Function
6
DISABLE
Powerup Disable.
Refer to “4.9. Reset, Powerup, and Powerdown”.
Default = 0.
5:1
Reserved
Reserved.
Always write to 0.
0
ENABLE
Powerup Enable.
Refer to “4.9. Reset, Powerup, and Powerdown”.
Default = 0.
Register 03h. Channel
Bit
D15
Name TUNE
Type
R/W
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
0
0
0
0
0
CHANNEL[9:0]
R/W
R/W
R/W
R/W
R/W
R/W
D3
D2
D1
D0
Reset value = 0x0000
Bit
Name
Function
15
TUNE
Tune.
0 = Disable (default).
1 = Enable.
The tune operation begins when the TUNE bit is set high. The STC bit is set high
when the tune operation completes. The STC bit must be set low by setting the TUNE
bit low before the next tune or seek may begin.
14:10
Reserved
Reserved.
Always write to 0.
9:0
CHAN[9:0]
Channel Select.
Channel value for tune operation.
If BAND 05h[7:6] = 00, then Freq (MHz) = Spacing (MHz) x Channel + 87.5 MHz.
If BAND 05h[7:6] = 01, BAND 05h[7:6] = 10, then
Freq (MHz) = Spacing (MHz) x Channel + 76 MHz.
CHAN[9:0] is not updated during a seek operation. READCHAN[9:0] provides the
current tuned channel and is updated during a seek operation and after a seek or
tune operation completes. Channel spacing is set with the bits SPACE 05h[5:4].
24
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Register 04h. System Configuration 1
Bit
D15
D14
Name RDSIEN STCIEN
Type
R/W
R/W
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
0
RDS
DE
AGCD
0
0
BLNDADJ[1:0]
GPIO3[1:0]
GPIO2[1:0]
GPIO1[1:0]
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
Reset value = 0x0000
Bit
Name
Function
15
RDSIEN
RDS Interrupt Enable.
0 = Disable Interrupt (default).
1 = Enable Interrupt.
Setting RDSIEN = 1 and GPIO2[1:0] = 01 will generate a 5 ms low pulse on GPIO2 when
the RDSR 0Ah[15] bit is set.
14
STCIEN
Seek/Tune Complete Interrupt Enable.
0 = Disable Interrupt (default).
1 = Enable Interrupt.
Setting STCIEN = 1 and GPIO2[1:0] = 01 will generate a 5 ms low pulse on GPIO2 when
the STC 0Ah[14] bit is set.
13
Reserved
12
RDS
11
DE
10
AGCD
9:8
Reserved
6:7
5:4
Reserved.
Always write to 0.
RDS Enable.
0 = Disable (default).
1 = Enable.
De-emphasis.
0 = 75 µs. Used in USA (default).
1 = 50 µs. Used in Europe, Australia, Japan.
AGC Disable.
0 = AGC enable (default).
1 = AGC disable.
Reserved.
Always write to 0.
BLNDADJ[1:0] Stereo/Mono Blend Level Adjustment.
Sets the RSSI range for stereo/mono blend.
00 = 31–49 RSSI dBµV (default).
01 = 37–55 RSSI dBµV (+6 dB).
10 = 19–37 RSSI dBµV (–12 dB).
11 = 25–43 RSSI dBµV (–6 dB).
ST bit set for RSSI values greater than low end of range.
GPIO3[1:0]
General Purpose I/O 3.
00 = High impedance (default).
01 = Mono/Stereo indicator (ST). The GPIO3 will output a logic high when the device is in
stereo, otherwise the device will output a logic low for mono.
10 = Low.
11 = High.
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Bit
Name
Function
3:2
GPIO2[1:0]
General Purpose I/O 2.
00 = High impedance (default).
01 = STC/RDS interrupt. A logic high will be output unless an interrupt occurs as
described below.
10 = Low.
11 = High.
Setting STCIEN = 1 will generate a 5 ms low pulse on GPIO2 when the STC 0Ah[14] bit is
set. Setting RDSIEN = 1 will generate a 5 ms low pulse on GPIO2 when the RDSR
0Ah[15] bit is set.
1:0
GPIO1[1:0]
General Purpose I/O 1.
00 = High impedance (default).
01 = Reserved.
10 = Low.
11 = High.
26
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Register 05h. System Configuration 2
Bit
D15
D14
D13
D12
D11
Name
SEEKTH[7:0]
Type
R/W
D10
D9
D8
D7
D6
D5
D4
BAND[1:0] SPACE[1:0]
R/W
R/W
D3
D2
D1
D0
VOLUME[3:0]
R/W
Reset value = 0x0000
Bit
Name
Function
15:8
SEEKTH[7:0]
7:6
BAND[1:0]
Band Select.
00 = 87.5–108 MHz (USA, Europe) (Default).
01 = 76–108 MHz (Japan wide band).
10 = 76–90 MHz (Japan).
11 = Reserved.
5:4
SPACE[1:0]
Channel Spacing.
00 = 200 kHz (USA, Australia) (default).
01 = 100 kHz (Europe, Japan).
10 = 50 kHz.
3:0
VOLUME[3:0]
RSSI Seek Threshold.
0x00 = min RSSI (default).
0x7F = max RSSI.
SEEKTH presents the logarithmic RSSI threshold for the seek operation. The
Si4702/03-C19 will not validate channels with RSSI below the SEEKTH value.
SEEKTH is one of multiple parameters that can be used to validate channels. For
more information, see "AN284: Si4700/01 Firmware 15 Seek Adjustability and Settings."
Volume.
Relative value of volume is shifted –30 dBFS with the VOLEXT 06h[8] bit.
VOLEXT = 0 (default).
0000 = mute (default).
0001 = –28 dBFS.
:
:
1110 = –2 dBFS.
1111 = 0 dBFS.
VOLEXT = 1.
0000 = mute.
0001 = –58 dBFS.
:
:
1110 = –32 dBFS.
1111 = –30 dBFS.
FS = full scale.
Volume scale is logarithmic.
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Register 06h. System Configuration 3
Bit
D15
D14
D13
D12
Name SMUTER[1:0] SMUTEA[1:0]
Type
R/W
R/W
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
0
0
0
VOLEXT
SKSNR[3:0]
SKCNT[3:0]
R/W
R/W
R/W
R/W
R/W
R/W
D0
Reset value = 0x0000
Bit
Name
Function
15:14
SMUTER[1:0]
Softmute Attack/Recover Rate.
00 = fastest (default).
01 = fast.
10 = slow.
11 = slowest.
13:12
SMUTEA[1:0]
Softmute Attenuation.
00 = 16 dB (default).
01 = 14 dB.
10 = 12 dB.
11 = 10 dB.
11:9
Reserved
Reserved.
Always write to zero.
8
VOLEXT
Extended Volume Range.
0 = disabled (default).
1 = enabled.
This bit attenuates the output by 30 dB. With the bit set to 0, the 15 volume settings
adjust the volume between 0 and –28 dBFS. With the bit set to 1, the 15 volume settings adjust the volume between –30 and –58 dBFS.
Refer to 4.5. "Stereo Audio Processing" on page 15.
7:4
SKSNR[3:0]
Seek SNR Threshold.
0000 = disabled (default).
0001 = min (most stops).
0111 = max (fewest stops).
Required channel SNR for a valid seek channel.
3:0
SKCNT[3:0]
Seek FM Impulse Detection Threshold.
0000 = disabled (default).
0001 = max (most stops).
1111 = min (fewest stops).
Allowable number of FM impulses for a valid seek channel.
28
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Register 07h. Test 1
Bit
D15
D14
Name XOSCEN AHIZEN
Type
R/W
R/W
D13
D12
D11 D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
Reserved
R/W
Reset value = 0x0100
Bit
Name
Function
15
XOSCEN
Crystal Oscillator Enable.
0 = Disable (default).
1 = Enable.
The internal crystal oscillator requires an external 32.768 kHz crystal as shown in
2. "Typical Application Schematic" on page 13. The oscillator must be enabled before
powerup (ENABLE = 1) as shown in Figure 9, “Initialization Sequence,” on page 20. It
should only be disabled after powerdown (ENABLE = 0). Bits 13:0 of register 07h
must be preserved as 0x0100 while in powerdown and as 0x3C04 while in powerup.
Refer to Si4702/03 Internal Crystal Oscillator Errata.
14
AHIZEN
Audio High-Z Enable.
0 = Disable (default).
1 = Enable.
Setting AHIZEN maintains a dc bias of 0.5 x VIO on the LOUT and ROUT pins to prevent the ESD diodes from clamping to the VIO or GND rail in response to the output
swing of another device. Register 07h containing the AHIZEN bit must not be written
during the powerup sequence and high-Z only takes effect when in powerdown and
VIO is supplied. Bits 13:0 of register 07h must be preserved as 0x0100 while in powerdown and as 0x3C04 while in powerup.
13:0
Reserved
Reserved.
If written, these bits should be read first and then written with their pre-existing values. Do not write during powerup.
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Register 08h. Test 2
Bit
D15
D14
D13
D12
D11
D10
D9
D8
Name
Reserved
Type
R/W
D7
D6
D5
D4
D3
D2
D1
D0
Reset value = 0x0000
Bit
Name
15:0
Reserved
Function
Reserved.
If written, these bits should be read first and then written with their pre-existing values. Do not write during powerup.
Register 09h. Boot Configuration
Bit
D15
D14
D13
D12
D11
D10
D9
D8
Name
Reserved
Type
R/W
D7
D6
D5
D4
D3
D2
D1
D0
Reset value = 0x0000
Bit
Name
15:0
Reserved
Function
Reserved.
If written, these bits should be read first and then written with their pre-existing values. Do not write during powerup.
30
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Register 0Ah. Status RSSI
Bit
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
Name RDSR STC SF/BL AFCRL RDSS BLERA[1:0]
ST
RSSI[7:0]
Type
R
R
R
R
R
R
R
R
D2
D1
D0
Reset value = 0x0000
Bit
Name
Function
15
RDSR
14
STC
Seek/Tune Complete.
0 = Not complete (default).
1 = Complete.
The seek/tune complete flag is set when the seek or tune operation completes. Setting
the SEEK 02h[8] or TUNE 03h[15] bit low will clear STC.
13
SF/BL
Seek Fail/Band Limit.
0 = Seek successful.
1 = Seek failure/Band limit reached.
The SF/BL flag is set high when SKMODE 02h[10] = 0 and the seek operation fails to
find a channel qualified as valid according to the seek parameters.
The SF/BL flag is set high when SKMODE 02h[10] = 1 and the upper or lower band limit
has been reached.
The SEEK 02h[8] bit must be set low to clear SF/BL.
12
AFCRL
AFC Rail.
0 = AFC not railed.
1 = AFC railed, indicating an invalid channel. Audio output is softmuted when set.
AFCRL is updated after a tune or seek operation completes and indicates a valid or
invalid channel. During normal operation, AFCRL is updated to reflect changing RF environments.
11
RDSS
RDS Synchronized.
0 = RDS decoder not synchronized (default).
1 = RDS decoder synchronized.
Available only in RDS Verbose mode (RDSM 02h[11] = 1).
Refer to “4.4. RDS/RBDS Processor and Functionality”.
10:9
BLERA[1:0]
RDS Ready.
0 = No RDS group ready (default).
1 = New RDS group ready.
Refer to “4.4. RDS/RBDS Processor and Functionality”.
RDS Block A Errors.
00 = 0 errors requiring correction.
01 = 1–2 errors requiring correction.
10 = 3–5 errors requiring correction.
11 = 6+ errors or error in checkword, correction not possible.
Available only in RDS Verbose mode (RDSM 02h[11] = 1).
Refer to “4.4. RDS/RBDS Processor and Functionality”.
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Bit
Name
8
ST
7:0
RSSI[7:0]
Function
Stereo Indicator.
0 = Mono.
1 = Stereo.
Stereo indication is also available on GPIO3 by setting GPIO3 04h[5:4] = 01.
RSSI (Received Signal Strength Indicator).
RSSI is measured units of dBµV in 1 dB increments with a maximum of approximately
75 dBµV. Si4702/03-C19 does not report RSSI levels greater than 75 dBuV.
32
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Register 0Bh. Read Channel
Bit
D15
D14
D13
D12
D11
D10
Name BLERB[1:0] BLERC[1:0] BLERD[1:0]
Type
R
R
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
READCHAN[9:0]
R
R
Reset value = 0x0000
Bit
Name
15:14
BLERB[1:0]
RDS Block B Errors.
00 = 0 errors requiring correction.
01 = 1–2 errors requiring correction.
10 = 3–5 errors requiring correction.
11 = 6+ errors or error in checkword, correction not possible.
Available only in RDS Verbose mode (RDSM = 1).
Refer to “4.4. RDS/RBDS Processor and Functionality”.
13:12
BLERC[1:0]
RDS Block C Errors.
00 = 0 errors requiring correction.
01 = 1–2 errors requiring correction.
10 = 3–5 errors requiring correction.
11 = 6+ errors or error in checkword, correction not possible.
Available only in RDS Verbose mode (RDSM = 1).
Refer to “4.4. RDS/RBDS Processor and Functionality”.
11:10
BLERD[1:0]
RDS Block D Errors.
00 = 0 errors requiring correction.
01 = 1–2 errors requiring correction.
10 = 3–5 errors requiring correction.
11 = 6+ errors or error in checkword, correction not possible.
Available only in RDS Verbose mode (RDSM = 1).
Refer to “4.4. RDS/RBDS Processor and Functionality”.
9:0
Function
READCHAN[9:0] Read Channel.
If BAND 05h[7:6] = 00, then Freq (MHz) = Spacing (MHz) x Channel + 87.5 MHz.
If BAND 05h[7:6] = 01, BAND 05h[7:6] = 10, then
Freq (MHz) = Spacing (MHz) x Channel + 76 MHz.
READCHAN[9:0] provides the current tuned channel and is updated during a seek
operation and after a seek or tune operation completes. Spacing and channel are set
with the bits SPACE 05h[5:4] and CHAN 03h[9:0].
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Register 0Ch. RDSA
Bit
D15
D14
D13
D12
D11
D10
D9
D8
D7
Name
RDSA[15:0]
Type
R
D6
D5
D4
D3
D2
D1
D0
D5
D4
D3
D2
D1
D0
Reset value = 0x0000
Bit
Name
15:0
RDSA
Function
RDS Block A Data.
Register 0Dh. RDSB
Bit
D15
D14
D13
D12
D11
D10
D9
D8
D7
Name
RDSB[15:0]
Type
R
D6
Reset value = 0x0000
Bit
Name
15:0
RDSB
Function
RDS Block B Data.
34
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Register 0Eh. RDSC
Bit
D15
D14
D13
D12
D11
D10
D9
D8
D7
Name
RDSC[15:0]
Type
R
D6
D5
D4
D3
D2
D1
D0
D5
D4
D3
D2
D1
D0
Reset value = 0x0000
Bit
Name
15:0
RDSC
Function
RDS Block C Data.
Register 0Fh. RDSD
Bit
D15
D14
D13
D12
D11
D10
D9
D8
D7
Name
RDSD[15:0]
Type
R
D6
Reset value = 0x0000
Bit
Name
15:0
RDSD
Function
RDS Block D Data.
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5
VA
RST
GPIO3
4
17
16
15 GND
14 LOUT
GND
PAD
13 ROUT
12 GND
6
7
8
9
10
VIO
GND
GPIO2
3
18
RCLK
RFGND
GPIO1
2
19
SDIO
FMIP
20
SCLK
1
SEN
NC
NC
7. Pin Descriptions: Si4702/03-C19
11 VD
Top View
Pin Number(s)
Name
1, 20
NC
2
FMIP
3
RFGND
4, 12, 15, PAD
GND
Ground. Connect to ground plane on PCB.
5
RST
Device reset input (active low).
6
SEN
Serial enable input (active low).
7
SCLK
Serial clock input.
8
SDIO
Serial data input/output.
9
RCLK
External reference oscillator input.
10
VIO
I/O supply voltage.
11
VD
Digital supply voltage. May be connected directly to battery.
13
ROUT
Right audio output.
14
LOUT
Left audio output.
16
VA
17, 18, 19
Description
No Connect. Leave floating.
FM RF inputs.
RF ground. Connect to ground plane on PCB.
Analog supply voltage. May be connected directly to battery.
GPIO3, GPIO2, General purpose input/output.
GPIO1
36
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8. Ordering Guide
Part
Number*
Package
Type
Operating
Temperature
Si4702-C19-GM Portable Broadcast Radio Tuner
FM Stereo
QFN
Pb-free
–20 to 85 °C
Si4703-C19-GM Portable Broadcast Radio Tuner
FM Stereo with RDS
QFN
Pb-free
–20 to 85 °C
Description
*Note: Add an “(R)” at the end of the device part number to denote tape and reel option; 2500 quantity per reel.
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9. Package Markings (Top Marks)
9.1. Si4702 Top Mark
Figure 10. Si4702 Top Mark
9.2. Si4703 Top Mark
Figure 11. Si4703 Top Mark
9.3. Top Mark Explanation
Mark Method:
YAG Laser
Line 1 Marking:
Part Number
02 = Si4702
03 = Si4703
Firmware Revision
19 = Firmware Revision 19
R = Die Revision
C = Revision C Die
TTT = Internal Code
Internal tracking code.
Line 2 Marking:
Line 3 Marking:
Circle = 0.5 mm Diameter Pin 1 Identifier
(Bottom-Left Justified)
Y = Year
WW = Workweek
Assigned by the Assembly House. Corresponds to the last significant digit of the year and workweek of the mold date.
38
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10. Package Outline: Si4702/03-C19
Figure 12 illustrates the package details for the Si4702/03-C19. Table 10 lists the values for the dimensions shown
in the illustration.
Figure 12. 20-Pin Quad Flat No-Lead (QFN)
Table 10. Package Dimensions
Symbol
Millimeters
Symbol
Millimeters
Min
Nom
Max
A
0.50
0.55
0.60
f
A1
0.00
0.02
0.05
L
0.35
0.40
0.45
b
0.18
0.25
0.30
L1
0.00
—
0.10
c
0.27
0.32
0.37
aaa
—
—
0.10
bbb
—
—
0.10
ccc
—
—
0.08
ddd
—
—
0.10
eee
—
—
0.10
D
D2
3.00 BSC
1.65
e
1.75
0.50 BSC
E
E2
1.70
3.00 BSC
1.65
1.70
Min
Nom
Max
2.53 BSC
1.75
Notes:
1. All dimensions are shown in millimeters unless otherwise noted.
2. Dimensioning and tolerancing per ANSI Y14.5M-1994.
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11. PCB Land Pattern: Si4702/03-C19
Figure 13 illustrates the PCB land pattern details for the Si4702/03-C19. Table 11 lists the values for the
dimensions shown in the illustration.
Figure 13. PCB Land Pattern
40
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Table 11. PCB Land Pattern Dimensions
Symbol
Millimeters
Min
D
D2
Max
2.71 REF
1.60
Symbol
1.80
Min
Max
GE
2.10
—
W
—
0.34
—
e
0.50 BSC
X
E
2.71 REF
Y
E2
f
GD
1.60
1.80
2.53 BSC
2.10
Millimeters
0.28
0.61 REF
ZE
—
3.31
ZD
—
3.31
—
Notes: General
1. All dimensions shown are in millimeters (mm) unless otherwise noted.
2. Dimensioning and Tolerancing is per the ANSI Y14.5M-1994 specification.
3. This Land Pattern Design is based on IPC-SM-782 guidelines.
4. All dimensions shown are at Maximum Material Condition (MMC). Least Material
Condition (LMC) is calculated based on a Fabrication Allowance of 0.05 mm.
Notes: Solder Mask Design
1. All metal pads are to be non-solder mask defined (NSMD). Clearance between the
solder mask and the metal pad is to be 60 µm minimum, all the way around the pad.
Notes: Stencil Design
1. A stainless steel, laser-cut and electro-polished stencil with trapezoidal walls should
be used to assure good solder paste release.
2. The stencil thickness should be 0.125 mm (5 mils).
3. The ratio of stencil aperture to land pad size should be 1:1 for the perimeter pads.
4. A 1.45 x 1.45 mm square aperture should be used for the center pad. This provides
approximately 70% solder paste coverage on the pad, which is optimum to assure
correct component stand-off.
Notes: Card Assembly
1. A No-Clean, Type-3 solder paste is recommended.
2. The recommended card reflow profile is per the JEDEC/IPC J-STD-020 specification
for Small Body Components.
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ADDITIONAL REFERENCE RESOURCES
AN230: Si4700/01/02/03 Programming Guide
AN231: Si4700/01/02/03 Headphone and Antenna Interface
Si4700/01/02/03 EVB User’s Guide
AN234: Si4700/01/02/03 EVB Test Procedure
AN235: Si4700/01/02/03 EVB Quick Start Guide
AN243: Using RDS/RBDS with the Si4701/03
AN284: Si4700/01/02/03 Seek Adjustability and Settings
AN299: External 32.768 kHz Crystal Oscillator
AN383: Antenna Selection and Universal Layout Guidelines
Si4702/03 Internal Crystal Oscillator Errata
Si4700/01/02/03 Customer Support Site: www.Skyworksinc.com/en/Support
42
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DOCUMENT CHANGE LIST
Revision 0.8 to Revision 0.9
Updated Figure 1, “Reset Timing Parameters for
Busmode Select Method 1 (GPIO3 = 0),” on page 5.
Updated Table 3, “DC Characteristics1,” on page 4.
Updated Table 7, “2-Wire Control Interface
Characteristics1,2,3,” on page 9.
Updated Table 8, “FM Receiver Characteristics1,2,”
on page 11.
Updated 4.4. "RDS/RBDS Processor and
Functionality" on page 15.
Updated Register 1, “Chip ID,” on page 22.
Updated Register 5, “System Configuration 2,” on
page 27.
Revision 0.9 to Revision 1.0
Updated notes in Table 7 on page 9.
Updated Table 8 on page 11.
Updated “4. Functional Description”.
Updated “5. Register Summary”.
Updated “6. Register Descriptions”.
Updated “7. Pin Descriptions: Si4702/03-C19”.
Revision 1.0 to Revision 1.1
Updated Table 8 on page 12.
Updated “4.11. Initialization Sequence”.
Updated Register 06h: System Configuration 3.
Updated additional reference resources.
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Copyright © 2021 Skyworks Solutions, Inc. All Rights Reserved.
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No license, whether express, implied, by estoppel or otherwise, is granted to any intellectual property rights by this document. Skyworks assumes no liability
for any materials, products or information provided hereunder, including the sale, distribution, reproduction or use of Skyworks products, information or
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THE MATERIALS, PRODUCTS AND INFORMATION ARE PROVIDED “AS IS” WITHOUT WARRANTY OF ANY KIND, WHETHER EXPRESS, IMPLIED, STATUTORY, OR
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