PHILIPS TEA6846H

INTEGRATED CIRCUITS
DATA SHEET
TEA6846H
New In Car Entertainment (NICE)
car radio
Product specification
File under Integrated Circuits, IC01
2001 Apr 12
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
CONTENTS
1
FEATURES
2
GENERAL DESCRIPTION
3
ORDERING INFORMATION
4
QUICK REFERENCE DATA
5
BLOCK DIAGRAM
6
PINNING
7
FUNCTIONAL DESCRIPTION
7.1
7.1.1
7.1.2
7.1.3
7.2
7.2.1
7.2.2
7.2.3
7.2.4
7.2.5
7.3
7.3.1
7.3.2
7.3.3
7.3.4
7.3.5
7.3.6
7.4
Oscillators
VCO
Crystal oscillator
PLL
FM signal channel
DAA
FM I/Q mixer
FM keyed AGC
FM IF amplifiers
FM demodulator
AM signal channel
AM tuner including mixer 1 and mixer 2
AM RF AGC and IF2 AGC
AM detector
AM AF or IF2 switch
AM noise detector and blanker
FM and AM level detector
Test mode
8
TEA6846H
11
AC CHARACTERISTICS
12
I2C-BUS PROTOCOL
12.1
12.1.1
12.1.2
12.1.3
12.1.4
12.2
12.2.1
12.2.2
12.2.3
12.2.4
12.2.5
12.2.6
12.2.7
12.2.8
I2C-bus specification
Test mode
Data transfer for the TEA6846H
I2C-bus pull-up resistors
Frequency setting
I2C-bus protocol
Data transfer mode and IC address
Write mode: data byte 1
Write mode: data byte 2
Write mode: data byte 3
Write mode: data byte 4
Write mode: data byte 5
Write mode: data byte 6
Read mode: data byte 1
13
TEST AND APPLICATION INFORMATION
14
PACKAGE OUTLINE
15
SOLDERING
15.1
Introduction to soldering surface mount
packages
Reflow soldering
Wave soldering
Manual soldering
Suitability of surface mount IC packages for
wave and reflow soldering methods
15.2
15.3
15.4
15.5
16
DATA SHEET STATUS
LIMITING VALUES
17
DEFINITIONS
9
THERMAL CHARACTERISTICS
18
DISCLAIMERS
10
DC CHARACTERISTICS
19
PURCHASE OF PHILIPS I2C COMPONENTS
2001 Apr 12
2
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
1
TEA6846H
FEATURES
• FM mixer for conversion of FM RF from 65 to 108 MHz
to IF of 10.7 MHz; the mixer provides inherent image
rejection
• FM RF mixer can be set to receive weather band radio
up to 162.55 MHz; weather band radio flag output
• Level detector for AM and FM with temperature
compensated output voltage; starting point and slope of
level output is programmable via the I2C-bus
• AM mixer 1 for conversion of AM RF to AM IF1 of
10.7 MHz
• LC tuner oscillator providing mixer frequencies for
FM mixer and AM mixer 1
• AM RF PIN diode drive circuit; AGC threshold detection
at AM mixer 1 and IF2 AGC input; threshold is
programmable via the I2C-bus; AM IF2 AGC and
demodulator
• AM mixer 2 for conversion of AM IF1 to AM IF2 of
450 kHz
• AM AF output switchable to provide AM IF2 for
AM stereo decoder
• Crystal oscillator providing mixer frequencies for
AM mixer 2 and reference for synthesizer PLL, IF count,
timing for Radio Data System (RDS) update and
reference frequency for car audio signal processor ICs
• AM noise blanker with blanking at AM IF2
• Several test modes available for fast IC and system
tests.
• Fast synthesizer PLL tuning system with local control for
inaudible RDS updating
• Timing function for RDS update algorithm and control
signal output for car audio signal processor ICs
(TEA688x, SAA77xx) or car radio integrated signal
processor IC (TEF6890H)
2
GENERAL DESCRIPTION
The TEA6846H is a single IC with car radio tuner for
AM and FM intended for microcontroller tuning with the
I2C-bus. It provides the following functions:
• Digital auto alignment circuit for conversion of
LC oscillator tuning voltage to controlled alignment
voltage of FM antenna tank circuit
• AM double conversion receiver for LW, MW and SW
(31 m, 41 m and 49 m bands) with IF1 = 10.7 MHz and
IF2 = 450 kHz
• AGC PIN diode drive circuit for FM RF AGC; AGC
detection at FM mixer input; the AGC PIN diode drive
can be activated by the I2C-bus as a local or distance
function; AGC threshold is a programmable and keyed
function switchable via the I2C-bus
• FM single conversion receiver with integrated image
rejection for IF = 10.7 MHz capable of selecting US FM,
US weather, Europe FM, East Europe FM and Japan
FM bands.
• FM IF linear amplifiers with high dynamic input range
• FM quadrature demodulator with automatic centre
frequency adjustment and Total Harmonic Distortion
(THD) compensation
3
ORDERING INFORMATION
TYPE
NUMBER
TEA6846H
2001 Apr 12
PACKAGE
NAME
LQFP80
DESCRIPTION
plastic low profile quad flat package; 80 leads;
body 12 × 12 × 1.4 mm
3
VERSION
SOT315-1
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
4
TEA6846H
QUICK REFERENCE DATA
SYMBOL
PARAMETER
VDDA(n)
analog supply voltage 1, 3, 4, 5
and 6
IDDA(tot)
total analog supply current 1, 3, 4,
5 and 6
VDDA2
analog supply voltage 2
IDDA2
analog supply current 2
VDDD
digital supply voltage
IDDD
digital supply current
fAM(ant)
AM input frequency
CONDITIONS
MIN.
TYP.
MAX.
UNIT
8
8.5
9
V
FM mode
45
56
67
mA
AM mode
39
49
59
mA
4.75
5
5.25
V
FM mode
6.5
8.1
9.8
mA
AM mode
4.7
5.9
7.1
mA
4.75
5
5.25
V
FM mode
18
23
28
mA
AM mode
18
23
28
mA
LW
0.144
−
0.288
MHz
MW
0.522
−
1.710
MHz
SW
5.85
−
9.99
MHz
fFM(ant)
FM input frequency
65
−
108
MHz
fFM(WB)(ant)
FM weather band input frequency
162.4
−
162.55
MHz
Tamb
ambient temperature
−40
−
+85
°C
AM overall system parameters (1 × SFE10.7MS3; 1 × SFR450H)
(S+N)/N
signal plus noise-to-noise ratio
m = 0.3
−
58
−
dB
THD
total harmonic distortion
m = 0.8
−
0.3
−
%
m = 0.9
−
0.5
−
%
FM overall system parameters (3 × SFE10.7MS3)
(S+N)/N
signal plus noise-to-noise ratio
∆f = 22.5 kHz;
de-emphasis = 50 µs
−
65
−
dB
THD
total harmonic distortion
∆f = 75 kHz
−
0.6
1
%
2001 Apr 12
4
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DAAOUT
44
45
46
VDDA3
OSCFDB
AFHOLD
VCOGND OSCTNK
47
48
49
AFSAMPLE
51
50
53
39
38
54
55
SEQUENTIAL
CIRCUIT FOR
RDS UPDATING
VCO
ANTENNA
DAA
AMAFIF2
TRDSMUTE
RDSMPX FMMPX
56
57
AM
DETECTOR
VDDA2 VDDA1
58
59
61
POWER
SUPPLY
MUTE
TUNING SYSTEM
AM
2 ms/20 ms
10.25 MHz
I2C-bus
T1FMAGC
T2FMAGC
IFMAGC
AM IF2
37
36
35
63
FM IF
IF
COUNT
I2C-BUS
SCL
FM
AGC
66
RFGND
FMMIXIN1
67
33
×
31
FM
I/Q MIXER
30
AM
IF AGC
N1
÷2
90°
LEVEL
DAA
68
5
29
AM-NOISE
DETECTOR
90°
PEAK/
AVERAGE
70
71
T2AMAGC
T1AMAGC
AMMIX1IN1
28
27
26
×
N2
÷5/10
AM
RF AGC
FM
LIMITER/
LEVEL
AM
MIXER2
CRYSTAL
OSCILLATOR
72
73
76
23
×
IFAMP1
77
78
20
19
18
17 16
14
12
MIX1OUT2
VDDA5
IFAMP1DEC
MIX1OUT1
IFAMP1IN
VDDA6
XTAL1
XTALGND
XTAL2
Iref
9
Coffset
8
7
6
5
4
3
2
1
IFAMP1OUT
IFAMP2DEC
IF1GND
IFAMP2IN
Fig.1 Block diagram.
FMLIMIN
AMIF2IN
AMIF2DEC
AMNBHOLD
IFAMP2OUT
AMMIX2OUT1
AMMIX2OUT2
79
CAGC
FMLIMDEC
TEA6846H
11
MGU351
AMMIX1IN2
Vlevel
Product specification
22
CAFC
IFAMP2
AM
MIXER 1
handbook, full pagewidth
IAMAGC
QDET2
Σ
AM
LEVEL
BLANK
PULSE
QDET1
DEMODULATOR
69
Vref(FMMIX)
IF2GND
WX
TEA6846H
FMMIXIN2
SDA
64
New In Car Entertainment (NICE) car radio
DAATD
43
VDDD
BLOCK DIAGRAM
42
40
fref
VDDA4
Philips Semiconductors
5
2001 Apr 12
DGND
Vtune
CPOUT
DAAIN
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
6
TEA6846H
PINNING
SYMBOL
PIN
DESCRIPTION
FMLIMDEC
1
FM limiter decoupling
FMLIMIN
2
FM limiter input (10.7 MHz)
AMIF2DEC
3
decoupling for AM IF2 input
IFAMP2OUT
4
IF amplifier 2 output (10.7 MHz)
AMNBHOLD
5
AM noise blanker hold output
AMIF2IN
6
AM IF2 input (450 kHz) for demodulator AGC and AM level detector
IF1GND
7
AM IF1 ground
IFAMP2IN
8
IF amplifier 2 input (10.7 MHz)
Coffset
9
DC feedback for offset compensation RDS mute
n.c.
10
not connected
IFAMP2DEC
11
IF amplifier 2 decoupling and AGC capacitor for AM noise blanker
IFAMP1OUT
12
IF amplifier 1 output (10.7 MHz)
n.c.
13
not connected
IFAMP1IN
14
IF amplifier 1 and AM mixer 2 input (10.7 MHz)
n.c.
15
not connected
VDDA6
16
analog supply voltage 6 (8.5 V) for IF amplifier 1 and 2
IFAMP1DEC
17
AM mixer 2 and FM IF amplifier 1 decoupling
MIX1OUT1
18
FM mixer and AM mixer 1 IF output high (10.7 MHz)
MIX1OUT2
19
FM mixer and AM mixer 1 IF output low (10.7 MHz)
VDDA5
20
analog supply voltage 5 (8.5 V) for FM mixer and AM mixer 1
n.c.
21
not connected
AMMIX1IN2
22
AM mixer 1 input 2
AMMIX1IN1
23
AM mixer 1 input 1
n.c.
24
not connected
n.c.
25
not connected
T1AMAGC
26
1st time constant output of AM front-end AGC
T2AMAGC
27
2nd time constant of AM front-end AGC
IAMAGC
28
PIN diode drive current output of AM front-end AGC
Vref(FMMIX)
29
reference voltage for FM mixer
FMMIXIN1
30
input 1 of FM RF mixer
RFGND
31
RF ground
n.c.
32
not connected
FMMIXIN2
33
input 2 of FM RF mixer
n.c.
34
not connected
IFMAGC
35
PIN diode drive current output of FM front-end AGC
T2FMAGC
36
2nd time constant of FM front-end AGC
T1FMAGC
37
1st time constant of FM front-end AGC
DAAOUT
38
output of digital alignment circuit for antenna tank circuit
DAATD
39
temperature compensation diode of digital auto alignment circuit for antenna tank circuit
DAAIN
40
input of digital auto alignment circuit for antenna tank circuit
2001 Apr 12
6
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
SYMBOL
PIN
TEA6846H
DESCRIPTION
n.c.
41
not connected
Vtune
42
tuning voltage
CPOUT
43
charge pump output
VDDA4
44
analog supply voltage 4 (8.5 V) for tuning PLL
fref
45
reference frequency output for signal processor IC
VDDD
46
digital supply voltage (5 V)
DGND
47
digital ground
VCOGND
48
VCO ground
OSCFDB
49
VCO feedback
OSCTNK
50
VCO tank circuit
VDDA3
51
analog supply voltage 3 (8.5 V) for VCO
n.c.
52
not connected
AFSAMPLE
53
AF sample flag output for car audio signal processor IC
AFHOLD
54
AF hold flag output for car audio signal processor IC
TRDSMUTE
55
time constant for RDS update mute
AMAFIF2
56
AM demodulator AF output or IF2 output for AM stereo (multiplexed by I2C-bus)
RDSMPX
57
MPX output for RDS decoder and signal processor (not muted)
FMMPX
58
FM demodulator MPX output
VDDA2
59
analog supply voltage 2 (5 V) for on-chip power supply
n.c.
60
not connected
VDDA1
61
analog supply voltage 1 (8.5 V) for on-chip power supply
n.c.
62
not connected
SDA
63
I2C-bus data line input and output
SCL
64
I2C-bus clock line input
n.c.
65
not connected
IF2GND
66
AM IF2 ground
QDET1
67
quadrature demodulator tank 1
QDET2
68
quadrature demodulator tank 2
CAFC
69
FM demodulator AFC capacitor
Vlevel
70
level voltage output for AM and FM
XTAL1
71
crystal oscillator 1
XTALGND
72
crystal oscillator ground
XTAL2
73
crystal oscillator 2
n.c.
74
not connected
n.c.
75
not connected
Iref
76
reference current for power supply
AMMIX2OUT1
77
AM mixer 2 output 1 (450 kHz)
AMMIX2OUT2
78
AM mixer 2 output 2 (450 kHz)
CAGC
79
AMIFAGC capacitor
n.c.
80
not connected
2001 Apr 12
7
Philips Semiconductors
Product specification
61 VDDA1
62 n.c.
63 SDA
64 SCL
65 n.c.
66 IF2GND
67 QDET1
TEA6846H
68 QDET2
69 CAFC
70 Vlevel
71 XTAL1
72 XTALGND
73 XTAL2
74 n.c.
75 n.c.
76 Iref
77 AMMIX2OUT1
79 CAGC
80 n.c.
handbook, full pagewidth
78 AMMIX2OUT2
New In Car Entertainment (NICE) car radio
FMLIMDEC
1
60 n.c.
FMLIMIN
2
59 VDDA2
AMIF2DEC
3
58 FMMPX
IFAMP2OUT
4
57 RDSMPX
AMNBHOLD
5
56 AMAFIF2
AMIF2IN
6
55 TRDSMUTE
IF1GND
7
54 AFHOLD
IFAMP2IN
8
53 AFSAMPLE
Coffset
9
52 n.c.
51 VDDA3
n.c. 10
TEA6846H
IFAMP2DEC 11
50 OSCTNK
IFAMP1OUT 12
49 OSCFDB
n.c. 13
48 VCOGND
IFAMP1IN 14
47 DGND
n.c. 15
46 VDDD
VDDA6 16
45 fref
IFAMP1DEC 17
44 VDDA4
MIX1OUT1 18
43 CPOUT
MIX1OUT2 19
42 Vtune
VDDA5 20
Fig.2 Pin configuration.
2001 Apr 12
8
DAAIN 40
DAATD 39
DAAOUT 38
T1FMAGC 37
T2FMAGC 36
IFMAGC 35
n.c. 34
FMMIXIN2 33
n.c. 32
RFGND 31
FMMIXIN1 30
Vref(FMMIX) 29
IAMAGC 28
T2AMAGC 27
T1AMAGC 26
n.c. 25
n.c. 24
AMMIX1IN1 23
AMMIX1IN2 22
n.c. 21
41 n.c.
MHB882
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
7
It includes an AGC PIN diode drive circuit for the FM RF
AGC. The PIN diode drive can be activated via the I2C-bus
as a local or distance function.
FUNCTIONAL DESCRIPTION
7.1
7.1.1
Oscillators
VCO
The AGC threshold is programmable and the keyed AGC
function is switchable via the I2C-bus.
The L and C tuned VCO provides the local oscillator signal
for both FM and AM mixer 1. It has a frequency range of
151.2 to 248.2 MHz.
7.1.2
7.2.4
FM IF AMPLIFIERS
The two FM IF amplifiers provide 10 dB and 4 dB
amplification with high linearity and dynamic range.
CRYSTAL OSCILLATOR
The crystal oscillator provides a 20.5 MHz signal that is
used for:
7.2.5
• Reference frequency for frequency synthesizer PLL
FM DEMODULATOR
The FM quadrature demodulator includes automatic
centre frequency adjustment and THD compensation.
• Local oscillator for AM mixer 2
• Reference frequency for the IF counter
7.3
• Timing signal for the RDS update algorithm
7.3.1
• Reference frequency (75.4 kHz) for the TEA6880H (car
audio signal processor - CASP) or TEF6890H (car radio
integrated signal processor).
7.1.3
TEA6846H
AM signal channel
AM TUNER INCLUDING MIXER 1 AND MIXER 2
The AM tuner is realized in a double conversion technique
and is capable of selecting LW, MW and SW bands.
AM mixer 1 converts AM RF to IF1 of 10.7 MHz, while
AM mixer 2 converts IF1 of 10.7 MHz to IF2 of 450 kHz:
PLL
Fast synthesizer PLL tuning system with local control for
inaudible RDS updating.
• LW = 144 to 288 kHz
7.2
• SW = 5.85 to 9.99 MHz (including the 31 m, 41 m and
49 m bands).
7.2.1
• MW = 530 to 1710 kHz (US AM band)
FM signal channel
DAA
7.3.2
FM RF Digital Auto Alignment (DAA) circuitry for the
conversion of the VCO tuning voltage to a controlled
alignment voltage for the FM antenna tank circuit.
7.2.2
AM RF AGC AND IF2 AGC
The AM RF includes a PIN diode drive circuit. The
threshold detection points for AM AGC are performed at
AM mixer 1 and AM IF2. AGC thresholds are
programmable via the I2C-bus.
FM I/Q MIXER
FM quadrature mixer converts FM RF (65 to 162.55 MHz)
to IF of 10.7 MHz. The FM mixer provides inherent image
rejection and high RF sensitivity.
7.3.3
AM DETECTOR
The AM detector provides AM level information and
AM AF or AM IF2.
It is capable of tuning the US FM, US weather,
Europe FM, Japan FM and East Europe FM bands:
AM AF OR IF2 SWITCH
• US FM = 87.9 to 107.9 MHz
7.3.4
• US weather FM = 162.4 to 162.55 MHz
The AM output provides either a detected AM AF or the
corresponding AM IF2 signal. The IF2 signal can be used
for AM stereo decoder processing.
• Europe FM = 87.5 to 108 MHz
• Japan FM = 76.0 to 91 MHz
• East Europe FM = 65.8 to 74 MHz.
7.2.3
FM KEYED AGC
FM contains keyed wide-band RF AGC. AGC detection
occurs at the FM mixer. The wide-band RF signal switches
a narrow band signal (IF) from the FM IF level detector
circuitry that controls the FM RF AGC block.
2001 Apr 12
9
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
7.3.5
AM NOISE DETECTOR AND BLANKER
If the test mode is enabled by pin fref:
• The settling time of the AM IF2 AGC is reduced to less
than 100 ms in the nominal application
The detection point for the AM noise blanker is the output
stage of AM mixer 1, while blanking is realized at the
output of the mixer 2.
• The digital-to-analog converters for the antenna DAA
and the level DAA can be clocked directly by the SCL
line of the I2C-bus
Trigger sensitivity can be modified by changing the resistor
value at pin AMNBHOLD.
7.3.6
TEA6846H
• The output at pin fref can be selected by the I2C-bus:
TEA6880H or TEF6890H reference frequency, PLL
reference frequency or PLL programmable divider
output frequency
FM AND AM LEVEL DETECTOR
FM and AM level detectors provide the temperature
compensated output voltage. The starting points and
slopes of the level detector outputs are programmable via
the I2C-bus.
• The RDS update control circuit can be clocked directly
via pin DAATD
7.4
• Pin T1AMAGC can be used to enable the load PLL
circuit of the RDS update control circuit
Test mode
• Charge pumps can be set into 3-state mode.
The test mode of the IC is activated by:
• Sending the test byte (byte 5) to the IC
• Connecting pin fref through a 100 kΩ resistor to VDDA1
• Applying 50 µA to pin fref.
8 LIMITING VALUES
In accordance with the Absolute Maximum Rating System (IEC 60134).
SYMBOL
PARAMETER
CONDITIONS
MIN.
MAX.
UNIT
VDDA1
analog supply voltage 1 for on-chip power supply
−0.3
+10
VDDA2
analog supply voltage 2 for on-chip power supply
−0.3
+6.5
V
VDDA3
analog supply voltage 3 for VCO
−0.3
+10
V
VDDA4
analog supply voltage 4 for tuning PLL
−0.3
+10
V
VDDA5
analog supply voltage 5 for FM and AM RF
−0.3
+10
V
VDDA6
analog supply voltage 6 for IF amplifier 1 and 2
−0.3
+10
V
VDDD
digital supply voltage
−0.3
+6.5
V
−0.3
−
V
∆VDD8.5-DD5 difference between any 8.5 V supply voltage and any
5 V supply voltage
note 1
V
Tstg
storage temperature
−55
+150
°C
Tamb
ambient temperature
−40
+85
°C
Ves
electrostatic handling voltage
note 2
−200
+200
V
note 3
−2000
+2000
V
Notes
1. To avoid damages and wrong operation it is necessary to keep all 8.5 V supply voltages at a higher level than any
5 V supply voltage. This is also necessary during power-on and power-down sequences. Precautions have to be
provided in such a way that interferences can not pull down the 8.5 V supply below the 5 V supply.
2. Machine model (R = 0 Ω, C = 200 pF).
3. Human body model (R = 1.5 kΩ, C = 100 pF).
2001 Apr 12
10
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
9
TEA6846H
THERMAL CHARACTERISTICS
SYMBOL
Rth(j-a)
PARAMETER
CONDITIONS
thermal resistance from junction to ambient
VALUE
UNIT
54
K/W
in free air
10 DC CHARACTERISTICS
VDDA1 = VDDA3 = VDDA4 = VDDA5 = VDDA6 = 8.5 V; VDDA2 = 5 V; VDDD = 5 V; Tamb = 25 °C; unless otherwise specified.
SYMBOL
PARAMETER
CONDITIONS
MIN.
TYP.
MAX.
UNIT
Supply voltage
VDDA(n)
analog supply voltage 1, 3, 4, 5 and 6
8
8.5
9
V
VDDA2
analog supply voltage 2
4.75
5
5.25
V
VDDD
digital supply voltage
4.75
5
5.25
V
Supply current in FM mode
IDDD
digital supply current
18
23
28
mA
IDDA1
analog supply current 1 for on-chip power
supply
−
15
−
mA
IDDA2
analog supply current 2 for on-chip power
supply
6.5
8.1
9.8
mA
IDDA3
analog supply current 3 for VCO
−
6.5
−
mA
IDDA4
analog supply current 4 for tuning PLL
−
2.9
−
mA
IDDA5
analog supply current 5 for FM RF
−
5
−
mA
IDDA6
analog supply current 6 for FM IF
amplifier 1 and 2
10
12
14
mA
IMIX1OUT1
bias current of FM mixer output 1
4.8
6
7.2
mA
IMIX1OUT2
bias current of FM mixer output 2
4.8
6
7.2
mA
test mode;
bit TMS3 = 1
Supply current in AM mode
IDDD
digital supply current
18
23
28
mA
IDDA1
analog supply current 1 for on-chip power
supply
−
17.5
−
mA
IDDA2
analog supply current 2 for on-chip power
supply
4.7
5.9
7.1
mA
IDDA3
analog supply current 3 for VCO
−
6.5
−
mA
IDDA4
analog supply current 4 for tuning PLL
−
1.6
−
mA
IDDA5
analog supply current 5 for RF
−
1.8
−
mA
IMIX1OUT1
bias current of AM mixer 1 output 1
4.8
6
7.2
mA
IMIX1OUT2
bias current of AM mixer 1 output 2
4.8
6
7.2
mA
IAMMIX2OUT1 bias current of AM mixer 2 output 1
3.6
4.5
5.4
mA
IAMMIX2OUT2 bias current of AM mixer 2 output 2
3.6
4.5
5.4
mA
2001 Apr 12
test mode;
bit TMS3 = 1
11
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
SYMBOL
PARAMETER
TEA6846H
CONDITIONS
MIN.
TYP.
MAX.
UNIT
On-chip power supply reference current generator: pin Iref
Vo(ref)
output reference voltage
4
4.25
4.5
V
Ro
output resistance
8
11
13
kΩ
Io(max)
maximum output current
−100
−
+100
nA
11 AC CHARACTERISTICS
VDDA1 = VDDA3 = VDDA4 = VDDA5 = VDDA6 = 8.5 V; VDDA2 = 5 V; VDDD = 5 V; Tamb = 25 °C; see Figs 9 and 10; unless
otherwise specified.
SYMBOL
PARAMETER
CONDITIONS
MIN.
TYP.
MAX.
UNIT
Voltage controlled oscillator
151.2
−
248.2
MHz
−
101
−
dBc
-----------Hz
fosc = 250 MHz
−
97
−
dB
fosc = 200 MHz
−
99
−
dB
2.2
2.8
3.4
V
5
6.1
7.2
V
−
1.5
−
V
20.4996
20.5
20.5004
MHz
−
−
500
Ω
−
−
18
pF
−
112
−
dBc
-----------Hz
−
350
−
mV
1.7
2.1
2.5
V
fosc
oscillator frequency
C/N
carrier-to-noise ratio
fosc = 200 MHz; ∆f = 10 kHz
RR
ripple rejection
fripple = 100 Hz;
VDDA3(ripple) = 100 mV (RMS)
FEEDBACK INPUT: PIN OSCFDB
Vi(bias)
input bias voltage
TANK CIRCUIT OUTPUT: PIN OSCTNK
VO
DC output voltage
Vo(rms)
AC output voltage
(RMS value)
fosc = 200 MHz
Crystal oscillator
fxtal
crystal frequency
Rxtal
crystal motional
resistance
Cxtal
crystal shunt capacitance
C/N
carrier-to-noise ratio
start of operating
fxtal = 20.5 MHz (10.25 MHz);
∆f = 10 kHz
CIRCUIT INPUTS: PINS XTAL1, XTAL2 AND XTALGND
Vxtal(rms)
crystal voltage
(RMS value)
VXTAL1,
VXTAL2
DC bias voltage
Ri
real part of input
impedance
VXTAL1 − VXTAL2 = 1 mV;
note 1
−500
−
−
Ω
Ci
input capacitance
note 1
8
10
12
pF
2001 Apr 12
note 1
12
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
SYMBOL
IXTALGND
PARAMETER
crystal oscillator circuit
current
TEA6846H
CONDITIONS
MIN.
TYP.
MAX.
UNIT
start-up at
VXTAL1 = VXTAL2 = 2.1 V
−
9
−
mA
operating at
VXTAL1 − VXTAL2 = ±400 mV
−
1.5
−
mA
standard, Europe and local
−
2
−
weather band (WX)
−
1
−
SW
−
10
−
LW and MW
−
5
−
Oscillator divider N1
N1
oscillator divider ratio
FM mode:
Oscillator divider N2
N2
oscillator divider ratio
AM mode
Synthesizer
PROGRAMMABLE DIVIDER
Nprog
programmable divider
ratio
512
−
32767
∆Nstep
programmable divider step
size
−
1
−
fref = 100 kHz
−
205
−
fref = 50 kHz
−
410
−
fref = 25 kHz
−
820
−
fref = 20 kHz
−
1025
−
fref = 10 kHz
−
2050
−
REFERENCE FREQUENCY DIVIDER
Nref
crystal oscillator divider
ratio
fxtal = 20.5 MHz
CHARGE PUMP: PIN CPOUT
Isink(cp1)l
low charge pump 1 peak
sink current
FM weather band mode;
0.4 V < VCPOUT < 7.6 V
200
300
400
µA
Isource(cp1)l
low charge pump 1 peak
source current
FM weather band mode;
0.4 V < VCPOUT < 7.6 V
−400
−300
−200
µA
Isink(cp1)h
high charge pump 1 peak
sink current
AM stereo mode; N2 = 10
(LW and MW);
0.4 V < VCPOUT < 7.6 V
0.7
1
1.3
mA
Isource(cp1)h
high charge pump 1 peak
source current
AM stereo mode; N2 = 10
(LW and MW);
0.4 V < VCPOUT < 7.6 V
−1.3
−1
−0.7
mA
Isink(cp2)
charge pump 2 peak sink
current
FM standard mode;
0.3 V < VCPOUT < 7.1 V
100
130
160
µA
Isource(cp2)
charge pump 2 peak
source current
FM standard mode;
0.3 V < VCPOUT < 7.1 V
−160
−130
−100
µA
0 < VCPOUT < 8.5 V
−5
−
+5
nA
IZ(cp1), IZ(cp2) charge pump 1 or 2
current in 3-state
2001 Apr 12
13
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
SYMBOL
PARAMETER
TEA6846H
CONDITIONS
MIN.
TYP.
MAX.
UNIT
CHARGE PUMP: PIN Vtune
Isink(cp3)
charge pump 3 peak sink
current
FM standard mode;
0.4 V < Vtune < 7.6 V
2.1
3
3.9
mA
Isource(cp3)
charge pump 3 peak
source current
FM standard mode;
0.4 V < Vtune < 7.6 V
−3.9
−3
−2.1
mA
IZ(cp3)
charge pump 3 current in
3-state
0 < Vtune < 8.5 V
−5
−
+5
nA
FM mode;
0.4 V < VDAAIN < 8.0 V
−10
−
+10
nA
AM mode;
0 V < VDAAIN < 8.5 V
−10
−
+10
nA
0
−
8.5
V
−
−
0.3
V
−
−
0.5
V
Antenna Digital Auto Alignment (DAA)
DAA INPUT: PIN DAAIN
Ibias(cp)
Vi(cp)
charge pump buffer input
bias current
charge pump buffer input
voltage
DAA OUTPUT: PIN DAAOUT; note 2
Vo(AM)
DAA output voltage in
AM mode
Vo(FM)
DAA output voltage in
FM mode
VDAAIN = 4.0 V;
VDAATD = 0.7 V
minimum value
bits DAA[6:0] set to logic 0
1.5
1.65
1.8
V
value: data
byte 3 = 10101011
3.8
4
4.2
V
maximum value;
bits DAA[6:0] set to logic 1
8
−
8.5
V
6.2
6.5
6.8
V
3
3.3
3.6
V
VDAAIN = 3.0 V;
VDAATD = 0.7 V; bits DAA[6:0]
set to logic 1
VDAAIN = 2 V
data byte 3 = 11010101
1.8
2
2.2
V
Vo(n)
DAA output noise voltage
FM mode; VDAAIN = 4 V;
data byte 3: bit 6 = 1,
bits 5 to 0 = 0;
B = 300 Hz to 15 kHz
data byte 3 = 10101010
−
30
100
µV
∆Vo (T)
DAA output voltage
variation with temperature
Tamb = −40 to +85 °C;
data byte 3 = 10101011;
VDAATD = 0.7 V
−8
−
+8
mV
∆Vo (step)
DAA step accuracy
FM mode; VDAAOUT < 8.0 V;
n = 0 to 127
0.5VLSB
VLSB
1.5VLSB
mV
Io(sink)
DAA output sink current
0.2 V < VDAAOUT < 8.25 V
50
−
−
µA
Io(source)
DAA output source current
−
−
−50
µA
2001 Apr 12
14
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
SYMBOL
tst
PARAMETER
DAA output settling time
TEA6846H
CONDITIONS
MIN.
TYP.
MAX.
UNIT
0.2 V < VDAAOUT < 8.25 V;
CL = 270 pF
−
−
30
µs
RR
ripple rejection
fripple = 100 Hz; VDDA4 = 1 mV
−
50
−
dB
CL
DAA output load
capacitance
VDAAOUT < 8.0 V; FM mode
−
−
270
pF
−40
−30
µA
DAA TEMPERATURE COMPENSATION: PIN DAATD
Isource
compensation diode
source current
0.2 V < VDAATD < 1.5 V
−50
TCsource
temperature coefficient of
compensation diode
source current
0.2 V < VDAATD < 1.5 V;
Tamb = −40 to +85 °C
−3 × 10−10 −
+3 × 10−10 K−1
−
8
−
bit
data byte 4: bit 7 = 1
−
2
−
ms
data byte 4: bit 7 = 0
−
20
−
ms
data byte 4: bit 3 = 1
−
10
−
data byte 4: bit 3 = 0
−
100
−
−
272
−
−
75.368
−
kHz
IF counter (FM IF or AM IF2 counter)
NIF
IF counter length for
AM and FM
Tcount(IF)
IF counter period
Rprecount
FM IF counter prescaler
ratio
Reference frequency for car sound processor IC; note 3
REFERENCE FREQUENCY DIVIDER
Nref
crystal oscillator divider
ratio
fref
reference frequency
fxtal = 20.5 MHz
VOLTAGE GENERATOR; PIN fref
Vo(p-p)
AC output voltage
(peak-to-peak value)
60
100
170
mV
VO
DC output voltage
3.2
3.4
3.9
V
Ro
output resistance
−
−
50
kΩ
RL(min)
minimum load resistance
1
−
−
MΩ
data byte 5: bit 5 = 0, bit 6 = 0 −
150
−
mV
data byte 5: bit 5 = 1, bit 6 = 0 −
275
−
mV
data byte 5: bit 5 = 0, bit 6 = 1 −
400
−
mV
data byte 5: bit 5 = 1, bit 6 = 1 −
525
−
mV
0.20
0.27
0.35
V
−
15
−
mA
AM signal channel
AM RF AGC STAGE INPUTS: PINS AMMIX1IN1 AND AMMIX1IN2
Vi(p)
RF input voltage for AGC
start level (peak value)
AM IF AGC STAGE INPUTS: PINS AMIF2IN AND AMIF2DEC
Vi(p)
IF2 input voltage (peak
value)
AGC start level
AM RF AGC CURRENT GENERATOR OUTPUT: PIN IAMAGC
Isink(max)
2001 Apr 12
maximum AGC sink
current
VAMMIX1IN1 > 500 mV
(peak value)
15
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
SYMBOL
PARAMETER
Ro
output resistance
Co
output capacitance
TEA6846H
CONDITIONS
IIAMAGC = 1 µA
MIN.
TYP.
MAX.
UNIT
1
−
−
MΩ
−
5
7
pF
AM RF AGC PEAK DETECTOR: PIN T2AMAGC
Iatt
attack current AGC peak
detector
data byte 5: bit 5 = 1,
bit 6 = 1;
AM mixer 1 input Vi = 1 V;
VT2AMAGC−GND = 3 V;
VAMIF2IN−AMIF2DEC = 0 V
−
3.15
−
mA
Idec
decay current AGC peak
detector
data byte 5: bit 5 = 1,
bit 6 = 1;
AM mixer 1 input Vi = 0 V;
VT2AMAGC−AMMIN1IN2 = 0.25 V;
VT2AMAGC−GND = 3 V;
VAMIF2IN−AMIF2DEC = 0 V
−
2.6
−
µA
AM MIXER 1 (IF1 = 10.7 MHZ)
Mixer inputs: pins AMMIX1IN1and AMMIX1IN2
Ri
input resistance
note 4
50
70
100
kΩ
Ci
input capacitance
note 4
−
5
7
pF
VI
DC input voltage
2.3
2.7
3.1
V
Vi(max)
maximum voltage on
pin AMMIX1IN1
500
−
−
mV
1 dB compression point of
AM mixer 1 output
(peak-to-peak)
Mixer outputs: pins MIX1OUT1 and MIXOUT2
Ro
output resistance
note 5
100
−
−
kΩ
Co
output capacitance
note 5
−
5
7
pF
Vo(max)(p-p)
maximum output voltage
(peak-to-peak value)
12
15
−
V
Ibias
mixer bias current
4.8
6
7.2
mA
3.2
mA
--------V
AM mode
Mixer
gm(conv)
conversion
transconductance
I MIXOUT1
--------------------------------------------------V FMMIXIN1 – FMMIXIN2
2.0
2.55
gm(conv)(T)
conversion
transconductance
variation with temperature
∆g m(conv)
--------------------------------g m(conv) × ∆T
−
−9 × 10−4 −
IP3
3rd-order intermodulation
RL = 2.8 kΩ (AC load between 135
output pins)
138
−
dBµV
IP2
2nd-order intermodulation
RL = 2.8 kΩ (AC load between −
output pins)
170
−
dBµV
2001 Apr 12
16
K−1
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
SYMBOL
PARAMETER
Vi(n)(eq)
equivalent input noise
voltage
F
noise figure of AM mixer 1
TEA6846H
CONDITIONS
MIN.
TYP.
MAX.
UNIT
band limited noise;
−
Rgen = 750 Ω; RL = 2.8 kΩ
(AC load between output pins)
5.8
−
−
4.5
7.1
dB
−5
−
+5
µA
nV
-----------Hz
WEATHER BAND FLAG: PIN T1AMAGC
IL(max)
maximum load current
Vo(max)
maximum output voltage
for FM mode
measured with respect to
pin RFGND
0
−
0.5
V
Vo(min)
minimum output voltage
for WX mode
measured with respect to
pin RFGND
5.1
6.0
6.9
V
AM MIXER 2 (IF2 = 450 KHZ)
Mixer inputs: pins IFAMP1IN and IFAMP1DEC
Ri
input resistance
note 6
270
330
390
Ω
Ci
input capacitance
note 6
−
5
7
pF
VI
DC voltage
2.4
2.7
3
V
Vi(max)(p)
maximum input voltage
(peak value)
1.1
−
−
V
100
−
−
kΩ
1 dB compression point of
AM mixer 2 output
(peak-to-peak)
Mixer outputs: pins AMMIX2OUT1 and AMMIXOUT2
R0
output resistance
note 7
Co
output capacitance
note 7
−
5
7
pF
Vo(max)(p-p)
maximum output voltage
(peak-to-peak value)
VDDA = 8.5 V
12
15
−
V
Ibias
mixer bias current
AM mode
3.6
4.5
5.4
mA
1.9
mA
--------V
Mixer
gm(conv)
conversion
transconductance
I AMMIX2OUT1
------------------------------V IFAMP1IN
1.3
1.6
gm(conv)(T)
conversion
transconductance
variation with temperature
∆g m(conv)
--------------------------------g m(conv) × ∆T
−
−9 × 10−4 −
IP3
3rd-order intermodulation
RL = 4 kΩ (AC load between
output pins)
134
137
−
dBµV
IP2
2nd-order intermodulation
RL = 4 kΩ (AC load between
output pins)
−
170
−
dBµV
Vi(n)(eq)
equivalent input noise
voltage
Rgen = 330 Ω; RL = 4 kΩ
−
(AC load between output pins)
15
22
nV
-----------Hz
F
noise figure of AM mixer 2
−
16
19.5
dB
2001 Apr 12
17
K−1
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
SYMBOL
PARAMETER
TEA6846H
CONDITIONS
MIN.
TYP.
MAX.
UNIT
AM IF2 AGC STAGE: PINS AMIF2IN AND AMIF2DEC; note 8
Vi
input voltage
for α = −10 dB audio
attenuation
AM soft mute on
−
75
120
µV
AM soft mute off
−
6
10
µV
VAGC(start)
AGC start voltage
input carrier voltage
−
14
30
µV
VAGC(stop)
AGC stop voltage
maximum input peak voltage
1
−
−
V
VAGC(ctrl)
AGC control voltage
Vi = 1 mV
4.1
4.3
4.7
V
∆AGC
AGC range
between start and stop of
AGC; m = 0.8
−
89
−
dB
Ri
input resistance
1.8
2
2.2
kΩ
Ci
input capacitance
−
−
5
pF
−
45
65
µV
AM DETECTOR
Vsens(rms)
sensitivity voltage
(RMS value)
m = 0.3; fmod = 400 Hz;
BAF = 2.5 kHz; Rgen = 2 kΩ;
note 8
(S+N)/N = 26 dB
(S+N)/N = 46 dB
(S+N)/N
maximum signal plus
noise-to-noise ratio
m = 0.3; fmod = 400 Hz;
BAF = 2.5 kHz; Rgen = 2 kΩ
THD
total harmonic distortion
BAF = 2.5 kHz; CAGC = 22 µF;
AM IF2 AGC input
Vi = 100 µV to 500 mV (RMS)
−
600
900
µV
54
60
−
dB
m = 0.8; fmod = 400 Hz
−
0.5
1
%
m = 0.9; fmod = 400 Hz
−
1
2
%
m = 0.8; fmod = 100 Hz
−
1.25
2.5
%
−
1.75
3.5
%
RR
ripple rejection
VDDA2(ripple) = 100 mV (RMS);
fripple = 100 Hz;
30
40
−
dB
tsw
FM to AM switching time
CAGC = 22 µF
−
1000
1500
ms
tsettle
AM AGC settling time
CAGC = 22 µF
normal operation
−
−
1800
ms
test mode
−
−
180
ms
minimum at Vi = 14 µV
1.5
3
4.5
mV
maximum at Vi = 5.0 mV
130
180
230
mV
AM mono; m = 0.3;
240
fmod = 400 Hz;
Vi = 100 µV to 500 mV (RMS)
290
340
mV
m = 0.9; fmod = 100 Hz
Output: pin AMAFIF2
Vo(rms)
Ro
2001 Apr 12
AM IF2 output voltage
(RMS value)
output resistance
AM stereo; m = 0
AM stereo
−
−
500
Ω
AM mono
−
−
500
Ω
18
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
SYMBOL
PARAMETER
TEA6846H
CONDITIONS
MIN.
TYP.
MAX.
UNIT
−
5
7
pF
Vi = 10 µV to 1 V
0
−
7
V
Vi < 1 µV; standard setting of
level DAA and level slope
0.1
0.5
0.9
V
Vi = 1.4 mV; standard setting
of level DAA
1.6
2.2
2.8
V
∆Vlevel
step size for adjustment of standard setting of level slope 30
level starting point
40
50
mV
Vlevel(slope)
slope of level voltage
800
950
mV
--------------20 dB
∆Vstep
step size for adjustment of Vi =1.4 mV
level slope
45
60
75
mV
--------------20 dB
Blevel
bandwidth of level output
voltage
200
300
−
mV
Ro
output resistance
−
−
500
Ω
RR
ripple rejection
−
40
−
dB
Co
output capacitance
AM mono
AM IF2 LEVEL DETECTOR OUTPUT: PIN Vlevel; see Fig.3
Vlevel
DC output voltage
standard setting of level slope 650
VDDA1(ripple) = 100 mV (RMS);
fripple = 100 Hz;
AM NOISE BLANKER; see Fig.4
Threshold: pin AMNBHOLD
VO
DC output voltage
4.3
4.6
5.1
V
tsup
suppression time
6
7.5
10
µs
ftrigger
trigger sensitivity
frequency
Vp = 200 mV (peak);
Vlevel < 1.8 V
−
1000
−
Hz
Vp = 200 mV (peak);
Vlevel > 2.2 V
−
−
100
Hz
Vp = 20 mV (peak)
−
−
100
Hz
Noise detector output: pin TRDSMUTE
Isink(AGC)
AM noise blanker AGC
sink current
VTRDSMUTE = 3 V
35
50
65
µA
VAGC
AM noise blanker AGC
voltage
AM mixer 1 input Vi = 0 V
1.9
2.2
2.5
V
data byte 5: bit 5 = 0, bit 6 = 0 −
4
−
mV
data byte 5: bit 5 = 1, bit 6 = 0 −
8
−
mV
data byte 5: bit 5 = 0, bit 6 = 1 −
12
−
mV
data byte 5: bit 5 = 1, bit 6 = 1 −
16
−
mV
FM signal channel
FM RF AGC
Inputs: pins FMMIXIN1 and FMMIXIN2; note 9
Vi(RF)(rms)
2001 Apr 12
RF input voltage for start
of wide-band AGC
(RMS value)
19
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
SYMBOL
PARAMETER
TEA6846H
CONDITIONS
MIN.
TYP.
MAX.
UNIT
AGC peak detector output: pin T1FMAGC
Ich
charge current
−350
−600
−850
µA
Idis
discharge current
15
25
35
µA
Vo = 0.5 to 4.0 V
8
11.5
15
mA
data byte 5: bit 7 = 1;
standard setting of level DAA
500
950
1400
mV
FM mode
6.5
7.1
7.9
V
AM mode
2.7
3.1
3.4
V
PIN diode drive output: pin IFMAGC
Idrive
drive current
Level voltage output: pin Vlevel
Vth
threshold voltage for
narrow-band AGC
FM RF MIXER
Reference voltage: pin Vref(FMMIX)
Vref
reference voltage
Inputs: pins FMMIXIN1 and FMMIXIN2; note 9
Vi(RF)(max)
maximum RF input
voltage
1 dB compression point of
FM mixer output voltage
(peak-to-peak value)
70
100
−
mV
Vi(n)(eq)
equivalent input noise
voltage
Rgen = 600 Ω; RL = 2.8 kΩ;
noise of Rgen not included
−
2.6
3.1
nV
-----------Hz
Ri
input resistance
−
1.4
−
kΩ
Ci
input capacitance
−
5
7
pF
Outputs: pins MIX1OUT1 and MIX1OUT2; note 5
Ro
output resistance
100
−
−
kΩ
Co
output capacitance
−
5
7
pF
Ibias
mixer bias current
4.8
6
7.2
mA
Vo(max)(p-p)
maximum output voltage
(peak-to-peak value)
3
−
−
V
gm(conv)
conversion
transconductance
8.5
12.5
18
mA
--------V
gm(conv)(T)
conversion
transconductance
variation with temperature
−
−1 × 10−3 −
K−1
F
noise figure
−
3
4.6
dB
IP3
3rd-order intermodulation
116
119
−
dBµV
IRR
image rejection ratio
25
30
−
dB
13.5
15.5
17.5
dB
FM mode
FM mixer
IF AMPLIFIER 1
RL = 330 Ω; Vi = 1 mV;
note 10
G
gain
F
noise figure
−
10
13
dB
IP3
3rd-order intermodulation
117
120
−
dBµV
2001 Apr 12
20
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
SYMBOL
PARAMETER
TEA6846H
CONDITIONS
MIN.
TYP.
MAX.
UNIT
Inputs: pins IFAMP1IN and IFAMP1DEC; note 10
Vi(max)(p)
maximum input voltage
(peak value)
1 dB compression point of
IF amplifier 1 output voltage
(peak value)
200
−
−
mV
Vi(n)(eq)
equivalent input noise
voltage
Rgen = 330 Ω; RL = 330 Ω;
noise of Rgen not included
−
8
10
nV
-----------Hz
Ri
input resistance
270
330
390
Ω
Ci
input capacitance
−
5
7
pF
Output: pin IFAMP1OUT
Ro
output resistance
270
330
390
Ω
Co
output capacitance
−
5
7
pF
Vo(max)(p)
maximum output voltage
(peak value)
1.2
1.5
−
V
6.5
8.5
10.5
dB
IF AMPLIFIER 2
RL = 330 Ω; Vi = 1 mV;
note 11
G
gain
F
noise figure
−
13
15
dB
IP3
3rd-order intermodulation
127
130
−
dBµV
Inputs: pins IFAMP2IN and IFAMP2DEC; note 11
Vi(max)(p)
maximum input voltage
(peak value)
1 dB compression point of
IF amplifier 2 output voltage
(peak value)
500
−
−
mV
Vi(n)(eq)
equivalent input noise
voltage
Rgen = 330 Ω; RL = 330 Ω;
noise of Rgen not included
−
10
13
nV
-----------Hz
Ri
input resistance
270
330
390
Ω
Ci
input capacitance
−
5
7
pF
Output: pin IFAMP2OUT
Ro
output resistance
270
330
390
Ω
Co
output capacitance
−
5
7
pF
Vo(max)(p)
maximum output voltage
(peak value)
1.2
1.5
−
V
74
80
−
dB
FM demodulator and level detector; see Figs 5 and 6
FM LIMITER
Inputs: pins FMLIMIN and FMLIMDEC; note 12
Rgen = 50 Ω
G
gain
Ri
input resistance
270
330
390
kΩ
Ci
input capacitance
−
5
7
pF
500
700
−
mV
Outputs: pins QDET1 and QDET2
Vo(p-p)
2001 Apr 12
output voltage
(peak-to-peak value)
measured between output
pins
21
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
SYMBOL
PARAMETER
TEA6846H
CONDITIONS
MIN.
TYP.
MAX.
UNIT
FM DEMODULATOR
Limiter decoupling: pin FMLIMDEC
RL
load resistance
20
−
−
kΩ
CL
load capacitance
−
−
50
pF
αAF = −3 dB
−
10
15
µV
∆f = 22.5 kHz; fmod = 57 kHz;
Vi = 20 µV to 1 V; note 12
180
230
280
mV
RDS MPX inputs: pins FMLIMIN and FMLIMDEC; note 12
Vstart(lim)(rms) start of limiting of RDS
MPX output voltage
(RMS value)
RDS MPX output: pin QRDSMPX
Vo(rms)
RDS MPX output voltage
(RMS value)
Io(max)
maximum RDS MPX
output current
−
−
100
µA
Ro
output resistance
−
−
500
Ω
B
bandwidth RDS MPX
output
CL = 0; RL > 20 kΩ
200
300
−
kHz
PSRR
power supply ripple
rejection
fripple = 100 Hz to 20 kHz
−
40
−
dB
−
10
15
µV
(S+N)/N = 26 dB
−
10
15
µV
(S+N)/N = 46 dB
−
50
75
µV
180
230
280
mV
50
60
−
dB
FM RDS inputs: pins FMLIMIN and FMLIMDEC; note 12
Vstart(lim)(rms) start of limiting of MPX
output voltage
(RMS value)
αAF = −3 dB
Vo(sens)(rms)
∆f = 22.5 kHz; fmod = 1 kHz;
de-emphasis = 75 µs
sensitivity for MPX output
voltage (RMS value)
FM MPX output: pin FMMPX; note 12
Vo(rms)
MPX output voltage
(RMS value)
∆f = 22.5 kHz; fmod = 1 kHz;
de-emphasis = 75 µs;
Vi = 20 µV to 1 V;
αAM
AM suppression of MPX
output
∆f = 22.5 kHz; fmod = 1 kHz;
m = 0.3; de-emphasis = 75 µs
Vi = 500 µV to 300 mV
Vi = 20 to 500 µV
−
40
−
dB
Vi = 300 mV to 1 V
−
40
−
dB
−
−
100
µA
67
70
−
dB
−
0.35
0.7
%
Io(max)
maximum MPX output
current
(S+N)/N
maximum signal plus
noise-to-noise ratio of
MPX output voltage
THD
total harmonic distortion of ∆f = 75 kHz; fmod = 1 kHz;
MPX output voltage
de-emphasis = 75 µs;
Vi = 200 µV to 800 mV
2001 Apr 12
∆f = 22.5 kHz; fmod = 1 kHz;
de-emphasis = 75 µs;
Vi = 10 mV;
22
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
SYMBOL
PARAMETER
TEA6846H
CONDITIONS
MIN.
TYP.
MAX.
UNIT
B
bandwidth MPX output
CL = 0; RL > 20 kΩ
200
−
−
kHz
PSRR
power supply ripple
rejection
fripple = 100 Hz to 20 kHz
−
40
−
dB
RL(min)
minimum load resistance
20
−
−
kΩ
Ro(max)
maximum output
resistance
−
−
500
Ω
CL(max)
maximum load
capacitance
−
−
50
pF
MPX MUTE
αmute
muting depth
during RDS update
60
80
−
dB
tatt
attack time MPX mute
CTRDSMUTE = 10 nF
0.75
1
1.25
ms
tdecay
decay time MPX mute
CTRDSMUTE = 10 nF
0.75
1
1.25
ms
RDS update: pin TRDSMUTE
Idis
discharge current
Vo = 3 V; audio output muted
24
32
38
µA
Ich
charge current
Vo = 3 V; audio output not
muted
−24
−32
−38
µA
∆f = 100 kHz
28
32
−
dB
Vi = 10 to 80 µV
−
0.1
1
V
Vi = 80 µV to 800 mV
−
10
30
mV
Vi = 10 to 80 µV
−
0.240
1
V
Vi = 80 µV to 800 mV
−
25
500
mV
Vi = 10 µV to 1 V
0
−
7
V
Vi < 1 µV; standard setting of
level DAA
0.2
0.6
1.1
V
Vi = 1 mV; standard setting of
level DAA
1.4
1.9
2.5
V
DEMODULATOR AFC
GAFC
AFC gain
RDS MPX output: pin RDSMPX; note 12
Voffset(DC)
residual DC offset voltage
Ldemod = typical value
Ldemod = ±6%
FM IF LEVEL DETECTOR OUTPUT: PIN Vlevel; note 12
Vlevel
DC output voltage
∆Vlevel
level starting point for
adjustment of step size
standard setting of level slope 30
40
50
mV
Vlevel(slope)
slope of level voltage
standard setting of level slope 650
800
950
mV
--------------20 dB
∆Vstep
level slope adjustment of
step size
Vi = 1 mV
45
50
75
mV
--------------20 dB
Blevel
bandwidth of level output
voltage
Vi = 10 mV; fmod = 22.5 kHz;
standard setting of DAA
200
300
−
mV
Ro
output resistance
−
−
500
Ω
2001 Apr 12
23
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
SYMBOL
RR
PARAMETER
ripple rejection
TEA6846H
CONDITIONS
MIN.
TYP.
MAX.
UNIT
VDDA1(ripple) = 100 mV (RMS);
fripple = 100 Hz
−
40
−
dB
after first bus transmission
with AF = 1 (start of RDS
update); Vo = 0.5 V
1.0
1.2
1.4
mA
no RDS update in progress;
Vo = 0.5 V
1.0
1.2
1.4
mA
VDAATD(L) = 2.5 V;
VDAATD(H) = 3.5 V
2.5
−
3.5
V
VSCL(L) = 0 V; VSCL(H) = 5 V
0
−
5
V
pin fref in test mode
5.1
6
6.9
V
RDS update
Output: pin AFHOLD
Isink(max)
maximum sink current
Output: pin AFSAMPLE
Isink(max)
maximum sink current
Test mode; note 3
Temperature compensation diode: pin DAATD
Vi(ext)
external input voltage to
clock state machine
Clock input: pin SCL
Vi(ext)
external input voltage to
clock DAA
Time constant output: pin T1AMAGC
Vpulse
enabling voltage of load
PLL signal
Notes
1. Measured between pins XTAL1 and XTAL2.
n
2. DAA conversion gain formula: V DAAOUT = 2 ×  0.75 × ---------- + 0.25 × ( V DAAIN + V DAATD ) – V DAATD


128
where n = 0 to 127.
3. Reference frequency pin fref:
a) Rext = 68 kΩ connected to ground, activates the 2nd I2C-bus address
b) Rext = 100 kΩ connected to VDDA1, sets the IC into test mode.
4. Input parameters of AM mixer 1 measured between pins AMMIX1IN1 and AMMIX1IN2.
5. Output parameters of FM mixer and AM mixer 1 measured between pins MIX1OUT1 and MIX1OUT2.
6. Input parameters of AM mixer 2 measured between pins IFAMP1IN and IFAMP1DEC.
7. Output parameters of AM mixer 2 measured between pins AMMIX2OUT1 and AMMIX2OUT2.
8. Input parameters of AM IF2 measured between pins AMIF2IN and AMIF2DEC.
9. Input parameters of FM mixer measured between pins FMMIXIN1 and FMMIXIN2.
10. Input parameters of IF amplifier 1 measured between pins IFAMP1IN and IFAMP1DEC.
11. Input parameters of IF amplifier 2 measured between pins IFAMP2IN and IFAMP2DEC.
12. Input parameters of FM limiter measured between pins FMLIMIN and FMLIMDEC.
2001 Apr 12
24
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
TEA6846H
MHB484
6
handbook, full pagewidth
Vlevel
(V)
5
4
(1)
3
(2)
2
(3)
1
0
10 −3
10 −2
10 −1
1
10 2
10
(1) Level DAA setting byte 6 = FFH.
(2) Level DAA setting byte 6 = 84H (standard setting).
(3) Level DAA setting byte 6 = 00H.
Vi (mV)
Vi = VAMIF2IN − VAMIF2DEC
Fig.3 AM level output voltage (DAA) as a function of AM level circuit input voltage.
handbook, full pagewidth
Trep
70
Vlevel
71
VP
TEA6846H
73
1 kΩ
3V
78
test signal
1 kΩ
77
18
50 Ω
19
oscilloscope,
counter
100 Ω
100 Ω
4V
8.5 V
Test signal: Trep = 2 ms, tr < 50 ns, tf < 50 ns, and duty factor 50%.
Fig.4 Test circuit for AM noise blanker.
2001 Apr 12
8.5 V
14
4.7 nF
VP
10 3
25
MHB883
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
TEA6846H
MHB486
6
handbook, full pagewidth
Vlevel
(V)
5
(1)
4
(2)
3
2
(3)
1
0
10 −3
10 −2
10 −1
1
(1) Level DAA setting byte 6 = FFH.
(2) Level DAA setting byte 6 = 84H (standard setting).
(3) Level DAA setting byte 6 = 00H.
10
10 2
Vi (mV)
Vi = VFMLIMIN − VFMLIMDEC.
Fig.5 FM level output voltage (DAA) as a function of FM limiter and level circuit input voltage.
2001 Apr 12
26
10 3
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
TEA6846H
MHB487
10
FMMPX
VRDSMPX
(dB) 0
handbook,
V full pagewidth
,
(1)
9
Vlevel
(V)
8
THD
(%)
−10
7
−20
6
−30
−40
(2)
5
(3)
4
−50
3
−60
2
(4)
−70
1
(5)
−80
10 −3
10 −2
10 −1
1
10
10 2
Vi (mV)
0
10 3
(1) Output voltage for FMMPX and RDSMPX: fIF = 10.7 MHz; ∆f = 22.5 kHz; fmod = 1 kHz.
(2) Noise: unweighted B = 250 Hz to 15 kHz with de-emphasis 50 µs for FMMPX.
(3) Noise: unweighted B = 250 Hz to 15 kHz with de-emphasis 50 µs for RDSMPX.
(4) THD for FMMPX and RDSMPX.
(5) Level for standard setting of level DAA, byte 6 = 84H.
Vi = VFMLIMIN − VFMLIMDEC.
Fig.6 (S+N)/N, THD and level output voltage for FM mode as a function of FM demodulator input voltage.
2001 Apr 12
27
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
12 I2C-BUS PROTOCOL
12.1
12.1.3
Information about the I2C-bus can be found in the brochure
“The I2C-bus and how to use it” (order number
9398 393 40011).
The standard I2C-bus specification is expanded by the
following definitions.
IC addresses:
• 1st IC address C2: 1100001
12.1.4
• 2nd IC address C0: 1100000.
Structure of the
increment.
logic: slave transceiver with auto
• First: bit MUTE = 1
• Second: bit MUTE = 0.
TEST MODE
Connecting pin fref to VDDA1 via a 100 kΩ resistor or
feeding 50 µA into that pin switches the IC into the test
mode.
During test mode the digital-to-analog converters of the
level and antenna DAA functions can be sequenced by the
I2C-bus SCL line.
During test mode either the TEA6880H or TEF6890H
reference frequency, the PLL reference frequency divider
or the programmable divider output can be switched to
pin fref.
12.1.2
DATA TRANSFER FOR THE TEA6846H
Data sequence: address, byte 1, byte 2, byte 3, byte 4,
byte 5, and byte 6. The data transfer has to be in this
order. The LSB = 0 indicates a WRITE operation to the
TEA6846H.
Bit 7 of each byte is considered the MSB and has to be
transferred as the first bit of the byte.
The data becomes valid at the output of the internal
latches with the acknowledge of each byte. A STOP
condition after any byte can shorten transmission times.
When writing to the transceiver by using the STOP
condition before completion of the whole transfer:
• The remaining bytes will contain the old information
• If the transfer of a byte is not completed, this byte is lost
and the previous information is available.
In byte 5, 4 bits are reserved for test mode purposes.
Those can only be used when the test mode is activated
by the select pin fref.
2001 Apr 12
FREQUENCY SETTING
For new frequency setting, in both AM and FM mode, the
programmable divider is enabled by setting bit MUTE =1.
To select an FM frequency, two I2C-bus transmissions are
necessary:
Subaddresses are not used.
12.1.1
I2C-bus pULL-UP RESISTORS
When the IC is used together with the TEA6880H or
TEF6890H and both SCL and SDA lines are connected via
the I2C-bus to the TEA6880H or TEF6890H, the pull-up
resistors of the tuner IC should be connected to the digital
supply voltage of the TEA6880H or TEF6890H. Otherwise
an I2C-bus pull-down can occur switching off the tuner IC
supply when the I2C-bus buffer interface of the TEA6880H
or TEF6890H is enabled for data transfer to the tuner IC.
I2C-bus specification
I2C-bus
TEA6846H
28
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
TEA6846H
I2C-bus protocol
12.2
12.2.1
DATA TRANSFER MODE AND IC ADDRESS
Table 1
Write mode
S(1)
Table 2
address (write)
A(2)
address (read)
A(2)
data byte 1
0
0
0
0/1(1)
R/W(2)
data byte(s)
A(2)
P(3)
Read mode
S(1)
Notes to Tables 1 and 2
1. S = START condition.
2. A = acknowledge.
3. P = STOP condition.
Table 3
IC address byte
IC ADDRESS
1
1
0
MODE
Notes
1. Defined by address pin fref:
a) 1 = 1st IC address
b) 0 = 2nd IC address.
2. Read or write mode:
a) 0 = write operation to TEA6840H
b) 1 = read operation from TEA6840H.
12.2.2
WRITE MODE: DATA BYTE 1
Table 4
Format of data byte 1
BIT 7
BIT 6
BIT 5
BIT 4
BIT 3
BIT 2
BIT 1
BIT 0
AF
PCA6
PCA5
PCA4
PCA3
PCA2
PCA1
PCA0
Table 5
Description of data byte 1 bits
BIT
SYMBOL
7
AF
Alternative frequency. If AF = 0, then normal operation. If AF = 1, then AF (RDS)
update mode.
6 to 0
PCA[6:0]
Setting of programmable counter of synthesizer PLL. Upper byte of PLL divider
word.
2001 Apr 12
DESCRIPTION
29
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
12.2.3
TEA6846H
WRITE MODE: DATA BYTE 2
Table 6
Format of data byte 2
BIT 7
BIT 6
BIT 5
BIT 4
BIT 3
BIT 2
BIT 1
BIT 0
PCB7
PCB6
PCB5
PCB4
PCB3
PCB2
PCB1
PCB0
Table 7
Description of data byte 2 bits
BIT
SYMBOL
7 to 0
PCB[7:0]
DESCRIPTION
Setting of programmable counter of synthesizer PLL. Lower byte of PLL divider
word.
WRITE MODE: DATA BYTE 3
12.2.4
Table 8
Format of data byte 3
BIT 7
BIT 6
BIT 5
BIT 4
BIT 3
BIT 2
BIT 1
BIT 0
MUTE
DAA6
DAA5
DAA4
DAA3
DAA2
DAA1
DAA0
Table 9
Description of data byte 3 bits
BIT
SYMBOL
7
MUTE
6 to 0
DAA[6:0]
12.2.5
DESCRIPTION
FM audio mute. If MUTE = 0, then FM audio not muted. If MUTE = 1, then FM audio
muted; writing to programmable divider enabled.
Setting of antenna digital auto alignment.
WRITE MODE: DATA BYTE 4
Table 10 Format of data byte 4
BIT 7
BIT 6
BIT 5
BIT 4
BIT 3
BIT 2
BIT 1
BIT 0
IFMT
RFS2
RFS1
RFS0
IFPR
BND1
BND0
AMFM
Table 11 Description of data byte 4 bits
BIT
SYMBOL
7
IFMT
6 to 4
RFS[2:0]
3
IFPR
IF counter prescaler ratio. If IFPR = 0, then IF prescaler ratio is 100. If IFPR = 1, then
IF prescaler ratio is 10.
2 and 1
BND[1:0]
Band switch. These 2 bits select in FM mode band and local or distant, see Table 13;
in AM mode band and AM stereo, see Table 14.
0
AMFM
2001 Apr 12
DESCRIPTION
IF measuring time. If IFMT = 0, then IF measuring time is 20 ms. If IFMT = 1, then
IF measuring time is 2 ms.
Reference frequency for synthesizer. These 3 bits determine the reference
frequency, see Table 12.
AM or FM switch. If AMFM = 0, then FM mode. If AMFM = 1, then AM mode
30
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
TEA6846H
Table 12 Reference frequency setting
RFS2
RFS1
RFS0
fref (kHz)
0
0
0
100
1
0
0
50
0
1
0
25
1
1
0
20
0
0
1
10
1
0
1
10
0
1
1
10
1
1
1
10
Table 13 FM mode
BND1
BND0
SELECTION
0
0
FM standard: dead zone high current charge pump active,
FM AGC defined by RF level and threshold level setting by
I2C-bus
0
1
FM local: dead zone high current charge pump active,
FM AGC source current set to maximum
1
0
FM East Europe: dead zone high current charge pump
switched off, current of low current charge pump set to 1 mA
1
1
FM weather band: N1 divider set to 1 and I and Q phase shift
network switched on, WX flag signal activated
BND1
BND0
SELECTION
0
0
AM mono; N2 divider set to 5 (SW)
0
1
AM stereo; N2 divider set to 5 (SW)
1
0
AM mono; N2 divider set to 10 (LW, MW)
1
1
AM stereo; N2 divider set to 10 (LW, MW)
Table 14 AM mode; note 1
Note
1. In AM mode dead zone high current charge pump switched off, current of low current charge pump set to 1 mA.
2001 Apr 12
31
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
12.2.6
TEA6846H
WRITE MODE: DATA BYTE 5
Table 15 Format of data byte 5
BIT 7
BIT 6
BIT 5
BIT 4
BIT 3
BIT 2
BIT 1
BIT 0
KAGC
WBA1
WBA0
AMSM
TMS3
TMS2
TMS1
TMS0
Table 16 Description of data byte 5 bits
BIT
SYMBOL
DESCRIPTION
7
KAGC
6 and 5
WBA[1:0]
4
AMSM
AM soft mute. If AMSM = 0, then AM soft mute is off. If AMSM = 1, then AM soft mute
is on.
3
TMS3
In test mode charge pump 3-state. If TMS3 = 0, then 3-state off. If TMS3 = 1, then
3-state on.
2
TMS2
In test mode external clock for level and antenna DAA. If TMS2 = 0, then external
clock disabled. If TMS2 = 1, then external clock enabled.
1 and 0
TMS[1:0]
Keyed FM AGC. If KAGC = 0, then keyed FM AGC is off. If KAGC = 1, then keyed
FM AGC is on.
Wide band AGC. These 2 bits set the start value of wide band AGC. For AM,
see Table 17 and for FM, see Table 18.
In test mode setting of pin fref. These 2 bits define the function of pin fref,
see Table 19.
Table 17 Setting of wide band AGC for AM
WBA1
WBA0
AM MIXER 1 INPUT VOLTAGE (PEAK VALUE)
(mV)
0
0
150
0
1
275
1
0
400
1
1
525
WBA1
WBA0
FM RF MIXER 1 INPUT VOLTAGE (RMS VALUE)
(mV)
1
1
4
1
0
8
0
1
12
0
0
16
Table 18 Setting of wide band AGC for FM
Table 19 Setting function of pin fref in test mode
TMS1
TMS0
0
0
reference frequency of TEA6880H or TEF6890H
0
1
tuner oscillator frequency divided by division ratio of
programmable divider
1
0
PLL synthesizer reference frequency
1
1
not used (no output)
2001 Apr 12
OUTPUT AT PIN fref
32
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
12.2.7
TEA6846H
WRITE MODE: DATA BYTE 6
Table 20 Format of data byte 6
BIT 7
BIT 6
BIT 5
BIT 4
BIT 3
BIT 2
BIT 1
BIT 0
LST4
LST3
LST2
LST1
LST0
LSL2
LSL1
LSL0
Table 21 Description of data byte 6 bits
BIT
SYMBOL
DESCRIPTION
7 to 3
LST[4:0]
Setting of level DAA starting point. These 5 bits determine the offset of the level
detector output voltage.
2 to 0
LSL[2:0]
Setting of level DAA slope. These 3 bits determine the steepness of the level detector
output voltage.
Table 22 Standard setting of data byte 6 bits
SETTING OF LEVEL DAA STARTING POINT
SETTING OF LEVEL DAA SLOPE
LST4
LST3
LST2
LST1
LST0
LSL2
LSL1
LSL0
1
0
0
0
0
1
0
0
12.2.8
READ MODE: DATA BYTE 1
Table 23 Format of 1st data byte
BIT 7
BIT 6
BIT 5
BIT 4
BIT 3
BIT 2
BIT 1
BIT 0
IFC7
IFC6
IFC5
IFC4
IFC3
IFC2
IFC1
IFC0
Table 24 Description of data byte 1 bits
BIT
SYMBOL
7 to 0
IFC[7:0]
2001 Apr 12
DESCRIPTION
IF counter result. These bits contain the last eight bits of the IF counter result.
33
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
TEA6846H
13 TEST AND APPLICATION INFORMATION
handbook, full pagewidth
A
Vtune
Coils:
L1: P826RC-5134N=S
L2: PSGAE-5078D=S
L3: P293BC-1977Z
L4: E543SNAS-02010
L5: 611SNS-1066Y
L6: 369INS-3076X
L7; 388BN-1211Z
L8: air coil
(1): 1 to 5 pF trimmer without DAA
(2): series NP0
antenna
5V
digital
3.3 nF
2.2 kΩ
22 Ω
3.9 nF
B
fref
PLL
10 kΩ
3.3
µH
1.2 kΩ
100 nF
DGND
22 nF
100 nF
42
40
2.2
MΩ
43
44
46
45
47
39
22 kΩ
Vt
3.3 µH
38
ANTENNA
DAA
C
TUNING SYSTEM
BAS16
BB814
D
AM
L5
10.25 MHz
(1)
E
120 nH
270
nH
37
8.2
pF
36
1 µF
15 pF
290 nH
TEA6846H
WX
×
8.2 pF 31
22 Ω
BA595
F
33
L6
BA595
N1
÷2
90°
FM
I/Q MIXER
30
G
330 Ω
2.2 kΩ
1 nF
FM
AGC
1 µF
L8
290 nH
35
29
10 µF
15 pF
1 nF
H
RFGND
AM-NOISE
DETECTOR
90°
PEAK/
AVERAGE
I
22 nF
J
5V
analog
BAQ806
1 kΩ
28
27
100 nF
6.8
µH
22 µF
100
pF
150 µH
N
×
180
µH
150
pF
10
kΩ
O
P
100
nF
BAV99
IFAMP1
AM
MIXER 1
22
470 pF
M
20
19 18
17 16
14
180
pF
1.5 kΩ
L7
÷5/10
220 nF
1.8 MΩ
10 nF
L
N2
AM
RF AGC
23
22
nF
270
µH
10
nF
26
WB FLAG
560 Ω
K
1 nF
22
nF
22
nF
22
nF
BF861C
2.2 MΩ
47 Ω
22 Ω
SFE10.7
MS3
L1
22 nF
22 Ω
10 Ω
Q
MHB880
Fig.7 Application diagram (continued in Fig.8).
2001 Apr 12
34
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
handbook, full pagewidthA
TEA6846H
(2)
4.7 kΩ 270 pF
AF
AF
SAMPLE HOLD
B
AM
RDS/
AUDIO/IF MPX
FM
MPX
8.5 V
3.3 µH
5V
analog
1 µH
L4
BB156
22 Ω
22 nF
2.7 1.8
pF pF
48
49
53
54
55
SEQUENTIAL
CIRCUIT FOR
RDS UPDATING
VCO
C
47 µF
47 µF
47 µF
51
50
100
nF
100 nF
6.8 nF
56
57
AM
DETECTOR
59
58
61
POWER
SUPPLY
MUTE
VDD (I2C-bus)
D
2 ms/
20 ms
E
I2C-bus
AM IF2
10
kΩ
63
FM IF
IF
COUNT
I2C-BUS
F
10
kΩ
SDA
64
SCL
66
IF2GND
67
AM
IF AGC
G
LEVEL
DAA
4.7
kΩ
DEMODULATOR
68
69
H
L3
AFC
47 µF
Σ
AM
LEVEL
BLANK
PULSE
I
70
AM/FM
LEVEL
J
71
K
×
L
FM
LIMITER/
LEVEL
AM
MIXER2
M
CRYSTAL
OSCILLATOR
72
20.5
MHz
73
76
N
220
nF
120
kΩ
IFAMP2
O
L2
77
78
P
12
11
22
nF
9
8
7
6 5
4
220
nF
3
2
22
nF
1
330 Ω
22 nF
IF1GND
79
22 nF
10 µF
22 nF
SFE10.7
MS3
SFE10.7
MS3
SFR450H
22 Ω
Q
8.5 V
MHB881
Fig.8 Application diagram (continued from Fig.7).
2001 Apr 12
35
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
TEA6846H
handbook, full pagewidth
antenna
input
fref PLL
FM RF input
A
B
C
Vtune
D
10 kΩ
relay 1
2.2 kΩ
3.3
nF
470
kΩ
47 Ω
3.9
nF
100 nF
100
nF
22 Ω
1.2 kΩ
100 nF
relay 1
teledyne
3.3
µH
DGND
22
nF
relay 2
100 nF
42
40
43
44
46
45
47
39
22 kΩ
Vt
ANTENNA
DAA
38
E
BAS16
BB814
TUNING SYSTEM
F
AM
120
nH
10.25 MHz
(1)
1.5 to
5 pF
8.2
pF
1 nF
100
nF
37
1 MΩ
36
FM
AGC
35
L8
470 nH
6.8
µH
H
TEA6846H
1 µF
WX
33
4:6
BA779-2
47 pF
×
31
560 pF
8.2
pF
3.3 µH
N1
÷2
90°
FM
I/Q MIXER
30
22 Ω
I
L5
BA779-2
J
RFGND
L7
220 nH
29
47 µF
100 nF
G
AM NOISE
DETECTOR
90°
PEAK/
AVERAGE
K
22 nF
L
270
Ω
BAQ806
M
28
27
270
Ω
100 nF
AM
RF AGC
26
22 µF
N2
N
÷5/10
O
P
220 nF
WB
FLAG
220
nF
×
23
100
µH
1 mH
100
pF
220 µH
680
µH
IFAMP1
AM
MIXER1
180
pF
Q
R
330 pF
22
1 nF
20
22
nF
22
nF
1.2 MΩ
1 nF
16
14
50 Ω
1.5 kΩ
470 pF
17
19 18
4.7 µF
BF861C
100
nF
22
nF
Ce1
Ce2
BAV99
470
kΩ
22 nF
47 Ω
22 Ω
22 Ω
L1
10 Ω
SFE10.7
MS3
S
100 nF
100 nF
100 nF
304 Ω
330 Ω
AM RF
input
Fig.9 Test circuit (continued in Fig.10).
2001 Apr 12
36
IF
output
52 Ω
2Ω
IF
input
MHB897
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
handbook, full pagewidth
AF
SAMPLE
AM
RDS/
AUDIO/IF MPX
AF
HOLD
TEA6846H
10 Ω
FM
MPX
47 µF
A
10 Ω
B
C
47 µF
(1)
4.7 kΩ 270 pF
68
kΩ
relay3
D
L4
68
kΩ
100
nF
100
nF
10 Ω
8.5 V
22 Ω
3.3 µH
22 nF
100 nF
48
49
47 µF
3.3 µH
10
kΩ
100 nF
100 nF
10
kΩ
6.8 nF
47 µF
47 µF
50
51
53
55
54
56
57
58
59
61
SDA
SEQUENTIAL
CIRCUIT FOR
RDS UPDATING
VCO
E
AM
DETECTOR
F
SCL
POWER
SUPPLY
MUTE
2 ms/
20 ms
G
FM IF
I2C-bus
I2C-bus
interface
63 SDA
AM IF2
IF
COUNT
I2C-BUS
H
64 SCL
66 IF2GND
67
DGND
AM
IF AGC
I
LEVEL
DAA
DEMODULATOR
68
4.7
kΩ
L3
69
J
AFC
47 µF
Σ
AM
LEVEL
BLANK
PULSE
K
70
AM/FM
LEVEL
L
71
M
×
N
FM
LIMITER/
LEVEL
AM
MIXER2
O
CRYSTAL
OSCILLATOR
72
20.5
MHz
73
76
P
220
nF
120
kΩ
IFAMP2
Q
77
L1: P7PSE-X398
L2: P7PSEAE-5078D = S
L3: 392BC-1977Z
L4: E543SNAS-02010
L5: 611SNS-1066Y
L6: 369INS-3076X
L7: MURATA LQN
L8: MURATA LQN
(1): series NP0
78
R
12
11
9
8
7
6
5
4
3
2
79
1
L2
330 Ω
22
nF
100
nF
220
nF
100
nF
IF1GND
22 Ω
100
nF
22 µF
22 nF
coaxial connector
test pin
jumper
SFR
450H
SFE10.7
MS3
SFE10.7
MS3
to TEA6880H
S
100 nF
100 nF
100 nF
304 Ω
330 Ω
FM IF1
output
52 Ω
100 nF
2Ω
FM IF2 AM IF2
input
input
100 nF
100 nF
304 Ω
2 kΩ
47 Ω
330 Ω
FM IF2
output
2Ω
52 Ω
2 kΩ
limiter
input
AM IF
output
Fig.10 Test circuit (continued from Fig.9).
2001 Apr 12
5V
digital
100 nF
100
nF
BB156
2.7 1.8
pF pF
5V
analog
100 nF
37
MHB898
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
TEA6846H
Table 25 DC operating points
UNLOADED DC VOLTAGE (V)
SYMBOL
PIN
AM MODE
MIN.
FM MODE
TYP.
MAX.
MIN.
TYP.
MAX.
FMLIMDEC
1
2.5
3
3.5
2.5
2.8
3.1
FMLIMIN
2
2.5
3
3.5
2.5
2.8
3.1
AMIF2DEC
3
2.4
2.7
3.2
floating
IFAMP2OUT
4
7.2
7.9
−
3.4
3.9
4.4
AMNBHOLD
5
4.3
4.6
5.1
8
8.4
−
AMIF2IN
6
2.4
2.7
3.2
IF1GND
7
external 0
IFAMP2IN
8
3
2.7
3.1
3.5
floating
external 0
4
5
Coffset
9
floating
3
3.5
4
IFAMP2DEC
11
3
4
5
2.7
3.1
3.5
IFAMP1OUT
12
7.2
7.9
−
3.6
4
4.4
IFAMP1IN
14
2.4
2.7
3
2.3
2.7
3.1
2.7
3
2.7
3.1
0.3 (no WX)
0.5 (no WX)
VDDA6
16
external 8.5
IFAMP1DEC
17
2.4
MIX1OUT1
18
external 8.5
external 8.5
2.3
external 8.5
MIX1OUT2
19
external 8.5
external 8.5
VDDA5
20
external 8.5
external 8.5
AMMIX1IN1
22
2.3
2.75
3.1
floating
AMMIX1IN2
23
2.3
2.75
3.1
floating
T1AMAGC
26
0
2.8
4.6
0 (no WX)
T2AMAGC
27
2.5
2.8
3.1
floating
IAMAGC
28
open-collector
Vref(FMMIX)
29
2.7
3.1
3.4
6.5
open-collector
7.1
7.9
FMMIXIN2
30
1
1.3
1.6
2.3
2.8
3.3
RFGND
31
external 0
FMMIXIN1
33
1
1.3
1.6
2.3
2.8
3.3
IFMAGC
35
floating
1.5 (external
biasing)
−
4 (external
biasing)
T2FMAGC
36
7.5
T1FMAGC
37
floating
DAAOUT
38
−
DAATD
39
floating
external 0
8
0.2
8.3
0.3
3.9
4.6
5.3
1
−
7
0.2
−
8.25
0.2
−
1.5
DAAIN
40
0
−
8.5
0
−
8.5
Vtune
42
0
−
8.5
0
−
8.5
CPOUT
43
0
−
8.5
0
−
8.5
VDDA4
44
external 8.5
fref
45
3.2
3.4
3.7
3.4
3.7
2001 Apr 12
external 8.5
3.2
38
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
TEA6846H
UNLOADED DC VOLTAGE (V)
SYMBOL
PIN
AM MODE
MIN.
FM MODE
TYP.
MAX.
MIN.
VDDD
46
external 5
external 5
DGND
47
external 0
external 0
VCOGND
48
external 0
external 0
OSCFDB
49
2.2
2.8
3.4
6.1
7.2
OSCTNK
50
5
VDDA3
51
external 8.5
AFSAMPLE
53
0
AFHOLD
54
open-collector
TRDSMUTE
55
1.9
TYP.
MAX.
2.2
2.8
3.4
5
6.1
7.2
0.2
0.5
1.2 (muted)
1.7 (muted)
external 8.5
0.2
0.5
0
open-collector
2.2
2.5
0.7 (muted)
5.2 (not muted) 5.7 (not muted) 6.2 (not muted)
AMAFIF2
56
4
4.3
4.6
floating
RDSMPX
57
floating
2.6
3.1
3.3
FMMPX
58
floating
3
3.5
4
VDDA2
59
external 5
external 5
VDDA1
61
external 8.5
SDA
63
4.8
5
5.2
4.8
5
5.2
SCL
64
4.8
5
5.2
4.8
5
5.2
IF2GND
66
external 0
external 0
QDET1
67
floating
3.6
4.1
4.6
QDET2
68
floating
3.6
4.1
4.6
CAFC
69
floating
1.2
3.4
4.1
Vlevel
70
0.05
−
7
0
−
7
XTAL1
71
1.7
2.1
2.5
1.7
2.1
2.5
XTALGND
72
external 0
external 8.5
external 0
XTAL2
73
1.7
2.1
2.5
1.7
2.1
2.5
Iref
76
4
4.25
4.5
4
4.25
4.5
AMMIX2OUT1
77
external 8.5
4.6
5.1
AMMIX2OUT2
78
external 8.5
CAGC
79
3.6
2001 Apr 12
external 8.5
external 8.5
4.3
4.8
4.1
39
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
TEA6846H
14 PACKAGE OUTLINE
LQFP80: plastic low profile quad flat package; 80 leads; body 12 x 12 x 1.4 mm
SOT315-1
c
y
X
A
60
41
40 Z E
61
e
E HE
A A2
(A 3)
A1
w M
θ
bp
L
pin 1 index
80
Lp
21
1
detail X
20
ZD
e
v M A
w M
bp
D
B
HD
v M B
0
5
10 mm
scale
DIMENSIONS (mm are the original dimensions)
UNIT
A
max.
A1
A2
A3
bp
c
D (1)
E (1)
e
mm
1.6
0.16
0.04
1.5
1.3
0.25
0.27
0.13
0.18
0.12
12.1
11.9
12.1
11.9
0.5
HD
HE
14.15 14.15
13.85 13.85
L
Lp
v
w
y
1.0
0.75
0.30
0.2
0.15
0.1
Z D (1) Z E (1)
θ
1.45
1.05
7
0o
1.45
1.05
o
Note
1. Plastic or metal protrusions of 0.25 mm maximum per side are not included.
REFERENCES
OUTLINE
VERSION
IEC
JEDEC
SOT315-1
136E15
MS-026
2001 Apr 12
EIAJ
EUROPEAN
PROJECTION
ISSUE DATE
99-12-27
00-01-19
40
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
If wave soldering is used the following conditions must be
observed for optimal results:
15 SOLDERING
15.1
Introduction to soldering surface mount
packages
• Use a double-wave soldering method comprising a
turbulent wave with high upward pressure followed by a
smooth laminar wave.
This text gives a very brief insight to a complex technology.
A more in-depth account of soldering ICs can be found in
our “Data Handbook IC26; Integrated Circuit Packages”
(document order number 9398 652 90011).
• For packages with leads on two sides and a pitch (e):
– larger than or equal to 1.27 mm, the footprint
longitudinal axis is preferred to be parallel to the
transport direction of the printed-circuit board;
There is no soldering method that is ideal for all surface
mount IC packages. Wave soldering can still be used for
certain surface mount ICs, but it is not suitable for fine pitch
SMDs. In these situations reflow soldering is
recommended.
15.2
TEA6846H
– smaller than 1.27 mm, the footprint longitudinal axis
must be parallel to the transport direction of the
printed-circuit board.
The footprint must incorporate solder thieves at the
downstream end.
Reflow soldering
Reflow soldering requires solder paste (a suspension of
fine solder particles, flux and binding agent) to be applied
to the printed-circuit board by screen printing, stencilling or
pressure-syringe dispensing before package placement.
• For packages with leads on four sides, the footprint must
be placed at a 45° angle to the transport direction of the
printed-circuit board. The footprint must incorporate
solder thieves downstream and at the side corners.
Several methods exist for reflowing; for example,
convection or convection/infrared heating in a conveyor
type oven. Throughput times (preheating, soldering and
cooling) vary between 100 and 200 seconds depending
on heating method.
During placement and before soldering, the package must
be fixed with a droplet of adhesive. The adhesive can be
applied by screen printing, pin transfer or syringe
dispensing. The package can be soldered after the
adhesive is cured.
Typical dwell time is 4 seconds at 250 °C.
A mildly-activated flux will eliminate the need for removal
of corrosive residues in most applications.
Typical reflow peak temperatures range from
215 to 250 °C. The top-surface temperature of the
packages should preferable be kept below 220 °C for
thick/large packages, and below 235 °C for small/thin
packages.
15.3
15.4
Fix the component by first soldering two
diagonally-opposite end leads. Use a low voltage (24 V or
less) soldering iron applied to the flat part of the lead.
Contact time must be limited to 10 seconds at up to
300 °C.
Wave soldering
Conventional single wave soldering is not recommended
for surface mount devices (SMDs) or printed-circuit boards
with a high component density, as solder bridging and
non-wetting can present major problems.
When using a dedicated tool, all other leads can be
soldered in one operation within 2 to 5 seconds between
270 and 320 °C.
To overcome these problems the double-wave soldering
method was specifically developed.
2001 Apr 12
Manual soldering
41
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
15.5
TEA6846H
Suitability of surface mount IC packages for wave and reflow soldering methods
SOLDERING METHOD
PACKAGE
WAVE
BGA, LFBGA, SQFP, TFBGA
not suitable
suitable(2)
HBCC, HLQFP, HSQFP, HSOP, HTQFP, HTSSOP, SMS
not
PLCC(3), SO, SOJ
suitable
LQFP, QFP, TQFP
SSOP, TSSOP, VSO
REFLOW(1)
suitable
suitable
suitable
not
recommended(3)(4)
suitable
not
recommended(5)
suitable
Notes
1. All surface mount (SMD) packages are moisture sensitive. Depending upon the moisture content, the maximum
temperature (with respect to time) and body size of the package, there is a risk that internal or external package
cracks may occur due to vaporization of the moisture in them (the so called popcorn effect). For details, refer to the
Drypack information in the “Data Handbook IC26; Integrated Circuit Packages; Section: Packing Methods”.
2. These packages are not suitable for wave soldering as a solder joint between the printed-circuit board and heatsink
(at bottom version) can not be achieved, and as solder may stick to the heatsink (on top version).
3. If wave soldering is considered, then the package must be placed at a 45° angle to the solder wave direction.
The package footprint must incorporate solder thieves downstream and at the side corners.
4. Wave soldering is only suitable for LQFP, TQFP and QFP packages with a pitch (e) equal to or larger than 0.8 mm;
it is definitely not suitable for packages with a pitch (e) equal to or smaller than 0.65 mm.
5. Wave soldering is only suitable for SSOP and TSSOP packages with a pitch (e) equal to or larger than 0.65 mm; it is
definitely not suitable for packages with a pitch (e) equal to or smaller than 0.5 mm.
16 DATA SHEET STATUS
DATA SHEET STATUS(1)
PRODUCT
STATUS(2)
DEFINITIONS
Objective data
Development
This data sheet contains data from the objective specification for product
development. Philips Semiconductors reserves the right to change the
specification in any manner without notice.
Preliminary data
Qualification
This data sheet contains data from the preliminary specification.
Supplementary data will be published at a later date. Philips
Semiconductors reserves the right to change the specification without
notice, in order to improve the design and supply the best possible
product.
Product data
Production
This data sheet contains data from the product specification. Philips
Semiconductors reserves the right to make changes at any time in order
to improve the design, manufacturing and supply. Changes will be
communicated according to the Customer Product/Process Change
Notification (CPCN) procedure SNW-SQ-650A.
Notes
1. Please consult the most recently issued data sheet before initiating or completing a design.
2. The product status of the device(s) described in this data sheet may have changed since this data sheet was
published. The latest information is available on the Internet at URL http://www.semiconductors.philips.com.
2001 Apr 12
42
Philips Semiconductors
Product specification
New In Car Entertainment (NICE) car radio
TEA6846H
17 DEFINITIONS
18 DISCLAIMERS
Short-form specification  The data in a short-form
specification is extracted from a full data sheet with the
same type number and title. For detailed information see
the relevant data sheet or data handbook.
Life support applications  These products are not
designed for use in life support appliances, devices, or
systems where malfunction of these products can
reasonably be expected to result in personal injury. Philips
Semiconductors customers using or selling these products
for use in such applications do so at their own risk and
agree to fully indemnify Philips Semiconductors for any
damages resulting from such application.
Limiting values definition  Limiting values given are in
accordance with the Absolute Maximum Rating System
(IEC 60134). Stress above one or more of the limiting
values may cause permanent damage to the device.
These are stress ratings only and operation of the device
at these or at any other conditions above those given in the
Characteristics sections of the specification is not implied.
Exposure to limiting values for extended periods may
affect device reliability.
Right to make changes  Philips Semiconductors
reserves the right to make changes, without notice, in the
products, including circuits, standard cells, and/or
software, described or contained herein in order to
improve design and/or performance. Philips
Semiconductors assumes no responsibility or liability for
the use of any of these products, conveys no licence or title
under any patent, copyright, or mask work right to these
products, and makes no representations or warranties that
these products are free from patent, copyright, or mask
work right infringement, unless otherwise specified.
Application information  Applications that are
described herein for any of these products are for
illustrative purposes only. Philips Semiconductors make
no representation or warranty that such applications will be
suitable for the specified use without further testing or
modification.
19 PURCHASE OF PHILIPS I2C COMPONENTS
Purchase of Philips I2C components conveys a license under the Philips’ I2C patent to use the
components in the I2C system provided the system conforms to the I2C specification defined by
Philips. This specification can be ordered using the code 9398 393 40011.
2001 Apr 12
43
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Middle East: see Italy
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Slovenia: see Italy
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Internet: http://www.semiconductors.philips.com
For all other countries apply to: Philips Semiconductors,
Marketing Communications, Building BE-p, P.O. Box 218, 5600 MD EINDHOVEN,
The Netherlands, Fax. +31 40 27 24825
SCA 72
© Philips Electronics N.V. 2001
All rights are reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright owner.
The information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may be changed
without notice. No liability will be accepted by the publisher for any consequence of its use. Publication thereof does not convey nor imply any license
under patent- or other industrial or intellectual property rights.
Printed in The Netherlands
753503/01/pp44
Date of release: 2001
Apr 12
Document order number:
9397 750 07475