ETC TUA4401

Carradio IC
FM Car Radio IC with PLL
TUA 4401
Specification
1
B6CA
Features
• Double balanced RF mixer with low noise
figure, high IP3 and wide dynamic range
• Strictly symmetrical RF circuitry
• IF amplifier with adjustable gain
• 7 stage limiter amplifier with dB linear fieldstrength output
• Low distortion coincidence demodulator
• Multipath detector with analog output
• CMOS PLL-Synthesizer
• Resolution between 100 kHz and 6.25kHz
• Search tuning stop with IF counter and
Fieldstrength/Multipath evaluation
• ADC’s for fieldstr. and Multipath detector
• SOCCAR Bus
I2C Bus and 3 Wire Bus operation possible
2
Package
Ordering Information
Type
Ordering Code
TUA 4401
3
MQFP 64
Package
MQFP-64
General Description
The TUA 4401 is the first Infineon Carradio IC using BICMOS technology.
The combination of an analog FM receiver circuit and a digital PLL synthesizer on the same chip reduces the
over all pin count in comparision to two separate IC’s and in addition the number of necessary external components. This gives the flexibility both for high performance and low cost applications.
The recommended applications for this device are FM only carradios and background receivers, capable for
all world standards.
TUA 4401 features:
Frontend
- High level, high impedance mixer input with improved dynamic range
- High input / output 3rd order intercept point
- Integrated prestage AGC generation and control for PIN diodes and MOS tetrode
- Bus controlled AGC threshold
- 2 pin 1st local oscillator with improved low phase noise, internally coupled to PLL
- Strictly symmetrical RF parts
- PLL with fast acquisition mode
- Resolution 100 kHz, 50 kHz, 25 kHz, 12,5 kHz, 10 kHz and 6.25 kHz
- High running (61.5 MHz) crystal oscillator to avoid interference with bus controlled adjustment
Semiconductor Group
2
1.6.99
Specification
TUA 4401
IF amplification, demodulation and STS
- Low noise IF amplifier
- Gain adjust with DC control voltage or serial bus possible
- 7 stage IF limiter with extended fieldstrength range suitable for the IF frequency range of
10.7 MHz ... 21.4 MHz
- Fieldstrength DC output and ADC output available
- Low distortion coincidence demodulator (using short loop AFC principle) with MPX output
- Soft mute for weak signal conditions with adjustable bus controlled mute depth
- Multipath detector with high pass filter, analog output and ADC output
- IF counter for search tuning stop with selectable IF center frequency and window width
- STS informations -in window-,-below-,-beyond- available
SOCCAR Bus (Siemens One Chip CAr Radio Bus)
- I2C bus (2 wire, fast mode device with 400 kbit/s) and 3 Wire bus (3 or 4 wire) operation possible
- Bus interface with low threshold voltage Schmitt-Trigger inputs for interfacing 3V or 5V microprocessors
4
Pin Configuration
48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33
49
32
50
31
51
30
52
29
53
28
54
27
55
26
56
25
57
24
58
23
59
22
60
21
61
20
62
19
63
18
17
64
1
Semiconductor Group
2
3
4
5
6
7
9 10 11 12 13 14 15 16
8
3
1.6.99
Specification
5
Pin
No.
TUA 4401
Pin Definitions and Functions
Symbol
Function
+5V
64
1
MP_ADC
1:
ADC input multipath
detector
+5V
5 pF
64
FS_ADC
64:
ADC input fieldstrength
1
GNDD
+5V
2:
IF counter output IF
center
2
2
IF_CENT
GNDD
+5V
3:
IF counter detect output
(below beyond window)
3
3
IF_WINDOW
GNDD
+ 5V
4
4
330
BUS_MODE
+5V
4:
SOCCAR bus select input
(I2C or 3 Wire mode)
GNDD
Semiconductor Group
4
1.6.99
Specification
TUA 4401
+ 5V
5
5
5:
SOCCAR bus clock input
330
SCL
+5V
GNDD
+ 5V
6
6
6:
SOCCAR bus data in/output (I2C mode), data input
(3 Wire mode)
330
SDA
GNDD
7
NC
7: not connected
+ 5V
8
8
330
BUS_ENA
+5V
8:
SOCCAR bus enable
input
GNDD
9
NC
9: not connected
10
VREFD5V
10:
Reference voltage digital
section (5V)
11
VREFD3V
11:
Reference voltage digital
section (3V)
12
NC
12: not connected
V+ 3V
13
XTAL_DIV6
13
2k
13:
Crystal oscillator auxiliary
output (10.25 MHz)
200fF
GNDD
14
NC
Semiconductor Group
14: not connected
5
1.6.99
Specification
TUA 4401
+5V
15
330
15
15:
Switch port output 2(open
drain)
PORT_2
GNDD
+V
16
16:
Reference oscillator input
/ Crystal
QUARTZ1
2,5 k
16
17
5k
QUARTZ2
5k
17
17:
Reference oscillator input
/ Crystal
18
VCCD
18:
Positive power supply
voltage for serial bus und
synthesizer
19
GNDD
19:
Ground for serial bus und
synthesizer
20
NC
20: Not connected
21
NC
21: Not connected
+5V
22
330
22
PORT_1
22:
Switch port output 1
(open drain)
GNDD
Semiconductor Group
6
1.6.99
Specification
TUA 4401
VCCD
IPDA
+5 V
23:
PLL phasedetector output analog (Tuningvoltage)
23
PDA
PD
12
3k
23
GNDD
+5 V
24
PD
PD_0
25
PD_1
26
GNDRF
24
+5 V
25:
PLL chargepump output 1
(Phase detector tristate
chargepump output)
25
+5 V
26: Ground for RF part
+V
+V
27
27
24:
PLL chargepump output 0
(Phase detector tristate
chargepump output)
28
OSC1
27:
1st local oscillator circuit
28:
1st local oscillator circuit
28
OSC2
2,2V
29
29:
Positive power supply
voltage for RF part
VCCRF
Semiconductor Group
7
1.6.99
Specification
TUA 4401
+V
30
30
30:
Prestage AGC time constant capacitor; output for
MOS tetrode gate 2
PRE_CAP
6,4V
37
38
+V
31
FM1
31:
FM 1st mixer symmetrical input
31
32
2,0k
FM2
2,0k
32
32:
FM 1st mixer symmetrical input
2,6 V
33
NC
34
AGCOUNT_
N
33: not connected
34
35
+V
34:
Prestage AGC current
output for PIN diode
inverse polarity
35
AGCOUNT_
P
35:
Prestage AGC current
output for PIN diode normal polarity
36
NC
not connected
Semiconductor Group
8
1.6.99
Specification
37
TUA 4401
38
+V
37
37:
1st mixer output (open
collector)
IF2
31
38
38:
1st mixer output (open
collector)
IF1
2,0k
2,0k
32
2,6 V
39
VREFRF
39:
Reference voltage RF
section (4.8V)
40
GNDIF1
40:
Ground for IF amplifier
+V
42
IFINFM
41:
10.7 MHz IF amplifier
input
330
41
IFIN
17k
42
17k
41
42:
10.7 MHz IF amplifier
operation point
3,8V
43
43:
Reference voltage IF
section (4.8V)
VREFIF
Semiconductor Group
9
1.6.99
Specification
TUA 4401
+5V
44
44
IFAMPG
44:
10.7 MHz IF amplifier DC
gain control adjust, overwrite of DAC
from DAC
2,5 V
330
330
+V
45
45
45:
10.7 MHz IF amplifier output
IFOUTFM
+V
46:
10.7 MHz IF amplifier DC
gain control adjust blocking capacitor
46
IFAMPC
47
VCCIF
47:
Positive power supply
voltage for IF amplifier
48
NC
48: not connected
10k
46
Semiconductor Group
10
1.6.99
Specification
TUA 4401
+V
50
49:
FM limiter input
FMIFIN
330
49
FMIFBIAS2
33k
50
33k
49
50:
FM limiter input bias
decoupling cpacitor
5,5 V
51
GNDIF2
51:
Ground for limiter amplifier
52
NC
52: not connected
+V
MUTE
55
FSOUT
53
+V
53:
Dynamic soft mute control
blocking capacitor
55:
Fieldstrength output
34k
66k
53
55
+V
54
54
54:
FM MPX signal output
MPXOUT
Semiconductor Group
11
1.6.99
Specification
TUA 4401
100k
+V
56
56
56:
Multipath detector highpass filter input
MPA_IN
+V
86k
57
MPA_AIN
58
57
58
57:
Multipath detector auxiliary input
+V
58:
Multipath detector rectifier
capacitor
MPACAP
+V
59
59
MPA_OUT
59:
Multipath detector output
+V
60
DEMAFC
60
76k
60:
Demodulator AFC blocking capacitor
3,5V
Semiconductor Group
12
1.6.99
Specification
TUA 4401
+V
15p
61
PH02
61:
Demodulator circuit
15k
62
61/62
PH01
62:
Demodulator circuit
4,8V
63
6
OPA
Test pin
Applications
• FM only car radio receiver, background receiver
Semiconductor Group
13
1.6.99
Specification
NC
AGCOUNT_N
AGCONT_P
NC
IF2
IF1
VREFRF
GNDIF1
IFINFM
IFIN
VREFIF
IFAMPG
IFOUTFM
IFAMPC
VCCIF
Block Diagram
NC
7
TUA 4401
48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33
32
FM2
31
FM1
30
PRE_CAP
52
29
VCCRF
53
28
OSC2
FMINFIN
49
FMIFBIAS
50
GNDIF2
51
NC
MUTE
IF AMP
Vref
FM Lim / Dem /
FS / MP-Det
Mixer 1st LO
Preset AGC
MPXOUT
54
27
OSC1
FSOUT
55
26
GNDRF
MPA_IN
56
25
PD_1
MPA_AIN
57
24
PD_0
23
PDA
22
PORT_1
MPACAP
58
MPA_OUT
59
DEMAFC
60
21
NC
PH02
61
20
NC
PH01
62
19
GNDD
OPA
63
64
18
Cryst
OSC17
9 10 11 12 13 14 15 16
VCCD
FS_ADC
Semiconductor Group
IF_CENT
IF_WINDOW
BUS_MODE
SCL
SDA
NC
BUS_ENA
14
PORT_2
8
QUARTZ2
QUARTZ1
7
NC
6
NC
5
XTAL_DIV6
4
VREFD3V
3
VREFD5V
2
NC
1
MPA_ADC
PLL Synth.
Serial Bus
IF counter
ADC/DAC
1.6.99
Specification
8
TUA 4401
Circuit Description
The TUA 4401 is a one chip FM car radio system consisting of RF frontend, gain adjustable IF
amplifier, FM-IF limiter amplifier, demodulator, PLL synthesizer, IF counter for STS and ADC’s for
fieldstrength and multipath detector.The serial bus is switchable between I2C and 3 Wire bus mode.
8.1 FM frontend
The frontend consists of a two pin varactor tuned oscillator, a double balanced mixer and a prestage
AGC control circuit. The mixer has an improved intermodulation behaviour and convertes the RF
signal to the 10,7 MHz IF range. Two inputs allow both symmetrical and unsymmetrical operation.
The integrated AGC stage for prestage control drives MOSFETS as well as PIN diodes with current
drivers for normal and inverse polarity. The AGC threshold can be set with aserial bus controlled
2 Bit DAC.
8.2 FM IF amplifier
After the mixer an IF amplifier is present for IF post amplification. Input and output impedance are
both 330 Ohms for matching with ceramic filters. For adjusting the over all gain the IF amplifier gain
can be adjusted with a serial bus controlled 4 Bit DAC. The DAC output is available at a pin and can
be overwritten by an external control voltage for a not bus controlled gain adjust.
8.3 FM limiter and demodulator
The FM IF amplifier includes a seven stage capacitive coupled limiter amplifier and a fieldstrength
generator with high linearity and increased dynamic range.
The coincidence demodulator has an additional AFC short loop circuit with integrated varactor
diode in parallel to the external tank circuit to improve the distortion bahaviour in case of detuning.
For decreasing noise a soft mute circuit is available. Noise can be continueasly decreased
controlled by the fieldstrength value. Mute depth is adjustable with a serial bus controlled 7 bit DAC.
The adjustment range includes a full mute feature.
8.4 Multipath detector
A multipath detector with analog output is available. Its input signal is fed through a 200 kHz 2nd
order highpass filter and a 80 kHz 1st order highpass filter.
8.5 A/D converter for fieldstrength and multipath detector
The 7 bit A/D converter has two input channels and works as successive approximation converter.
The conversion time for both input signals is t = 32 µs. The 7-bit digital-words from both channels
(14 bit) are read out together via bus into two bytes with the read subadress 82H.
The input voltage range for both channels is 0...VREFD5V.
8.6 IF counter and multipath/fieldstrength evaluation for STS
FM center frequencies ar available in two ranges set by bit D7 in subaddress 05H.
For D7=1 the range of centerfrequency is 20.800 MHz...22.3875 MHz in 128 steps (12.5 kHz
per step). For D7=0 the range of centerfrequency is 10.400 MHz...11.1937 MHz in 128 steps
(6.25 kHz per step).
The gate time is adjustable in 8 steps from 320us...40.96ms and the tolerance of the accepted
count value, the window is adjustable in 5 steps from +/- (6.25kHz...100kHz) for D7=0 in subaddress 05H and +/- (12.5 kHz...200 kHz) for D7=1 in subaddress 05H. The results IF_CENT
and IF_WINDOW are read out via bus (read-subadress 82H) or pin IF_CENT.
If the IF frequency is into the preselected window, IF_CENT goes from high to low level.
If the IF frequency is outside the preselected window, IF_CENT is high. The bit IF_WINDOW
is a hint IF-frequency that is to low (IF_WINDOW=high) or is to high (IF_WINDOW=low).
In addition to the frequency measurement, thresholds for multipath and fieldstrength voltages can
be programmed via bus (subaddress 0BH). IF_CENT will only go to low level in case of fieldstrength and multipath voltages are beyond the thresholds and the frequency is inside the window.
When setting the thresholds to zero multipath and fieldstrength evaluation is disabled.
Semiconductor Group
15
1.6.99
Specification
TUA 4401
8.7 Crystal oscillator
A master crystal oscillator provides all necessary clock frequencies for the whole IC. A 61.5 MHz
crystal is used in 3rd harmonic mode.
The oscillator frequency can fine tuned with a serial bus controlled 4 bit D/A converter.
The crystal frequency is used as reference frequency for the PLL oscillator and IF counter. It is also
used as clock for the ADC’s. Finally the crystal frequency divided by 6 (10.25 MHz) is
available at a pin as low pass filtered voltage, it can be disabled with the serial bus.
8.8 Output ports
PORT_1 / 2 are NMOS Open drain outputs.
8.9 SOCCAR Bus
The TUA4401 supports the I2C bus protocol (2 wire) or 3 Wire bus protocol (3 or 4 wire) operation
selectable by pin 4: BUS_MODE (I2C=low, 3W=high). All bus pins ( BUS_MODE, SCL, SDA,
BUS_ENA) are Schmitt-triggered input buffer for 3V or 5V µC.
The bit stream begins with the most significant bit (MSB), is shifted in (write mode) on the low to
high transition of CLK and is shifted out (read mode) on the high to low transition of CLK.
I2C bus mode
In this mode pin4 (BUS_MODE) = low and pin8 (BUS_ENA)=low. In this mode SDA is a bidirectional
input / output pin.
Data Transition:
Data transition on the pin SDA must only occur when the clock SCL is low. SDA transitions while
SCL is high will be interpreted as start or stop condition.
Start Condition (STA):
A start condition is defined by a high to low transition of the SDA line while SCL is at a stable high
level.This start condition must precede any command and initiate a data transfer onto the bus.
Stop Condition (STO):
A stop condition is defined by a low to high transition of the SDA while the SCL line is at a stable
high level. This condition terminate the communication between the devices and forces the bus
interface into the initial conditions.
Acknowlage (ACK):
Indicates a successful data transfer. The transmitter will release the bus after sending 8 bit of data.
During the 9th clock cycle the receiver will pull the SDA line to low level to indicate it has receive the
8 bits of data correctly.
Data Transfer Write Mode:
To start the communication, the bus master must initiate a start condition, followed by the 8bit chip
address (write). The chip address for the TUA 4401 is fixed as ”1100110” (MSB at first). The last bit
(LSB=A0) of the chip address byte defines the typ of operation to be performed:
A0=1, a read operation is selected and A0=0, a write operation is selected. After this comparision
the TUA 4401 will generate an ACK.
After this device addressing the desired sub address byte and data bytes must be followed. The
subaddresses determines which one of the 9 data bytes (00H...07H,0BH) is transmitted first. At the end
of data transition the master must be generate the stop condition.
Data Transfer Read Mode:
To start the communication in the read mode, the bus master must initiate a start condition, followed
by the 8bit chip address (write: A0=0), followed by the sub address read (82H or 83H), followed by
the chip address (read: A0=1). After that procedure the 16bit data register 82H or the 8bit data
register 83H is read out. After the first 8 bit read out, the uP mandatory send LOW during the
ACK-clock. After the second 8 bit read out the uP mandatory send HIGH during the ACK-clock.
At the end of data transition the master must be generate the stop condition.
Semiconductor Group
16
1.6.99
Specification
TUA 4401
3W bus mode
In this mode pin4 (BUS_MODE) =high. Pin6 (SDA) is in this mode a bidirectional input / output.
Pin8 (BUS_ENA) is used to activate the bus interface to allow the transfer of data (SDA) to / from
the device. When BUS_ENA is in an inactive high state, shifting is inhibited. Data Transition:
Data transition on the pin SDA must only occur when the clock SCL is low. To transfer data to / from
the device, BUS_ENA (which must start inactive high) is taken low, a serial transfer is made via
SDA, DOUT and CLK and BUS_ENA is taken back high. The bit stream needs neither the chip
address.
Data Transfer Write Mode:
To start the communication, the BUS_ENA is taken low. The desired sub address byte and data
bytes must be followed. The subaddresses determines which one of the 9 data bytes
(00H...07H,0BH) is transmitted first. At the end of data transition the BUS_ENA must be high.
Data Transfer Read Mode:
To start the communication in the read mode, the BUS_ENA is taken low, followed by the sub
address read (82H). After that the device is ready to read out the 16bit data register 82H. At the end
of data transition the BUS_ENA must be high.
8.10 PLL Synthesizer
R / N Counter
The TUA 4401 has 2 identical 16bit counter for R and N path. Input frequency for the R-counter is
the buffered XTAL-frequency (61.5MHz). Tuning steps can be selected by the 16bit R-counter from
fR= 6.25kHz...100kHz. Input frequency for the N-counter is the buffered LO-frequency (in FM mode
98.2MHz...118.7MHz).
Three State Phase Comparator
The phase comparator generates a phase error signal according to phase difference between f R (R
counter output) and fN (N counter output).This phase error signal drives the charge pump current
generator. Polarity is fixed positiv for this application note.
Charge Pump
The charge pump generates signed pulses of current. 4 current values and 2 outputs are available.
Loop Amp
The integrated rail to rail loop amplifier allows an active loop filter design with external components.
Two modes are avialiable with status bit D11: high speed and normal mode.
Semiconductor Group
17
1.6.99
MOS
tetrode
Pin Diode 2
Pin Diode 1
VCC RF
FM
prest
AGC
FM
18
SOCCAR
Bus
N counter
D
W
D
'
V
X
%
Charge
pump
PD
Port
R counter
4 bit DAC
IF gain
VREF
RF
OSC
or Amp
10.7 MHz
CER Filter
1. LO
2 bit DAC
Prest. AGC thresh.
10.7 MHz
CER Filter
adj crystal
IF amp
gain adj.
OSC
Buffer
External
VRef
IF
div/6
10.7 MHz
CER Filter
SCL
Mode
ENA
VCC IF
SDA
Clock
counter
Gate
time
counter
Field
strength
FM IF
limiter
IF
counter
AfC
loop
Dem
MP det in
7 Bit ADC
80 kHz
HP
7 Bit DAC
Mute depth
MP
det.
100 kHz
HP
Soft
Mute
P1
P2
MPX out
VCCD
Semiconductor Group
Center
Window
Gate2
Fieldstrength
MP det out
Specification
TUA 4401
8.11 Functional Block Diagram
1.6.99
Specification
TUA 4401
8.12 Phase detector outputs
fR
fn
PD_0/1
Polarity
pos.
P-Channel
Tri-State.
N-Channel
Frequency fV < fR
or fV lagging
Semiconductor Group
Frequency fV > fR
or fV leading
19
Frequency fV = fR
1.6.99
Specification
TUA 4401
8.13 Bus Interface
Pin Function
Pin name
BUS_MODE
BUS_ENA
SCL
SDA
Function
Bus mode select
Enable
Serial clock
Serial data
I2C-mode
Low
3Wire mode
High
High=Inactiv
Low=Activ
Clock input
Data in / out
Data in
8.13.1 Bus Data Format
I2C Bus Write Mode
STA
MSB
CHIP ADDRESS (WRITE)
1
1
0
0
1
LSB
1
0
0
ACK
MSB
SUB ADDRESS (WRITE)
00H...07H, 0BH
S7
S6
MSB
SUB ADDRESS (READ) 82H, 83H
LSB
1
0
0
S5
S4
S3
S2
LSB
S1
S0
ACK
MSB
DATA IN X...0 (X=7 or 15)
DX
...
D5
D4
D3
D2
LSB
D1
D0
ACK
STO
I2C Bus Read Mode
MSB
CHIP ADDRESS (WRITE)
STA
1
1
MSB
DATA OUT FROM SUB ADD 82H
LSB
R15
R14
R8
0
R13
R12
0
R11
1
LSB
1
R10
0
R9
0
ACK
ACK1)
0
0
0
0
1
MSB
DATA OUT FROM SUB ADD 82H, 83H
LSB
R7
R6
R0
R5
R4
R3
R2
R1
ACK
ACK2)
STA
MSB
CHIP ADDRESS (READ)
1
1
0
0
1
1
LSB
0
1
ACK
STO
1): mandatory LOW send by uP, 2): mandatory HiGH send by uP
3W Bus Write Mode
MSB
SUB ADDRESS (WRITE)
00H...07H, 0BH
S7
S6
S5
S4
S3
S2
S1
LSB
MSB
DATA IN X...0 (X=7 or 15)
S0
DX
...
D5
D4
D3
LSB
D2
D1
D0
3W Bus Read Mode
MSB
SUB ADDRESS (READ) 82H, 83H
LSB
MSB
DATA OUT FROM SUB ADD
82H (MSB)
LSB
MSB
DATA OUT FROM SUB ADD
82H (LSB) / 83H (LSB)
LSB
1
0
0
R15
R14
R8
R7
R6
R0
0
0
0
0
1
R13
R12
R11
R10
R9
R5
R4
R3
R2
R1
Chipaddress Organisation
Chip Address (only I2C mode)
MSB
LSB
Function
1
1
0
0
1
1
0
0
Chip Address Write
1
1
0
0
1
1
0
1
Chip Address Read
LSB
Hex
Subaddress Organisation
Sub Addresses of Data Registers Write
MSB Bin
Function
0
0
0
0
0
0
0
0
00H
Status
0
0
0
0
0
0
0
1
01H
R_Counter
0
0
0
0
0
0
1
0
02H
N_Counter
0
0
0
0
0
0
1
1
03H
Mute_DAC7
0
0
0
0
0
1
0
0
04H
IF_COUNT_P1
0
0
0
0
0
1
0
1
05H
IF_COUNT_P2
0
0
0
0
0
1
1
0
06H
Specials
0
0
0
0
0
1
1
1
07H
Gain_DAC4
0
0
0
0
1
0
1
1
0BH
COMP_PRESET
Sub Address of Data Register Read
MSB
Bin
1
0
0
0
0
0
1
0
0
0
0
0
Semiconductor Group
LSB
Hex
Function
1
0
82H
Result Multipath, Fieldstrength, IF_Window
and IF_Center
1
1
83H
Result-MISC
20
1.6.99
Specification
TUA 4401
Data Byte Specification
Status
Subaddress 00H
Bit
R_Counter
Subaddress 01H
Results Fieldstrength, Multipath
and IF counter
Subaddress 82H (read address)
N_Counter
Subaddress 02H
Function
Bit
Function
Bit
Function
Bit
Function
MSB
D15
not used (must be=0)
MSB
D15
215
MSB
D15
215
MSB
D15
IF_window
D14
Port_2 (0=low, 1=high)
D14
214
D14
214
D14
Multipath_26
D13
213
D13
213
D13
Multipath_25
D13
Port_1 (0=low, 1=high)
D12
not used (must be=0)
D12
212
D12
212
D12
Multipath_24
D11
Loopamp current
D11
211
D11
211
D11
Multipath_23
D10
210
D10
210
D10
Multipath_22
D9
29
D9
29
D9
Multipath_21
8
D8
2
8
D8
Multipath_20
D7
27
D7
IF_center
D10
D9
not used (must be=0)
not used (must be=0)
D8
not used (must be=0)
D8
2
D7
ADC_Single
D7
27
D6
2
6
D6
26
D6
Fieldstrength_26
5
D5
2
5
D5
Fieldstrength_25
D6
ADC_Mode
D5
ADC_ON
D5
2
D4
IF_DAC4
D4
24
D4
24
D4
Fieldstrength_24
D3
PD_select
D3
23
D3
23
D3
Fieldstrength_23
D2
2
2
D2
2
2
D2
Fieldstrength_22
D1
21
D1
Fieldstrength_21
D0
LSB
20
D0
LSB
Fieldstrength_20
D2
CP_Current 2
D1
CP_Current 1
D1
21
D0
LSB
CP_Mode
D0
LSB
20
Mute_DAC7
Subaddress 03H
IF_Count_P1
Subaddress 04H
IF_Count_P2
Subaddress 05H
Specials
Subaddress 06H
IF_DAC4
Subaddress 07H
COMP_PRESET
Subaddress 0BH
Bit
Function
Bit
Function
Bit
Function
Bit
Function
Bit
Function
Bit
Function
MSB
D7
Enable
MSB
D7
Enable
MSB
D7
CF_Mod
e
MSB
D7
XTAL_DIV6
MSB
D7
not used
MSB
D15
not used
D6
MDAC_6
D6
not used
D6
CF_6
D6
VCO_2
D6
not used
D14
Fieldstrength_26
D5
MDAC_5
D5
Win_2
D5
CF_5
D5
AGC_1
D5
not used
D13
Fieldstrength_25
D4
MDAC_4
D4
Win_1
D4
CF_4
D4
AGC_0
D4
not used
D12
Fieldstrength_24
D3
MDAC_3
D3
Win_0
D3
CF_3
D3
XTAL_3
D3
GDAC_3
D11
Fieldstrength_23
D2
MDAC_2
D2
Gate_2
D2
CF_2
D2
XTAL_2
D2
GDAC_2
D10
Fieldstrength_22
D1
MDAC_1
D1
Gate_1
D1
CF_1
D1
XTAL_1
D1
GDAC_1
D9
Fieldstrength_21
D0
LSB
MDAC_0
D0
LSB
Gate_0
D0
LSB
CF_0
D0
LSB
XTAL_0
D0
LSB
GDAC_0
D8
Fieldstrength_20
D7
not used
D6
Multipath_26
Result Misc
Subaddress 83H
D5
Multipath_25
Bit Function
D4
Multipath_24
MSB
D7
IF_Window
D3
Multipath_23
D6
IF_Center
D2
Multipath_22
D5
Fieldstrength_Comp
D1
Multipath_21
D4
Multipath_Comp
D0
LSB
Multipath_20
D3
Res
D2
Res
D1
Res
D0
LSB
Res
Semiconductor Group
21
1.6.99
Specification
TUA 4401
Status, Subaddress 00H
MSB
D15
LSB MSB
D14
D13
0
0
1
0
0
D12 D11
D10
D9
D8
0
0
0
0
D7
LSB
D6
D5
D4
D3
D2
D1
D0
Function
these bits must be = 0
opendrain Port_2 output = high level
opendrain Port_2 output = low level
0
1
opendrain Port_1 output = high level
0
0
opendrain Port_1 output = low level
0
1
0
0
Loopamp currentsource high (ILOOPAMP=2.4mA) for
high speed tuning
Loopamp currentsource low (ILOOPAMP=1.2mA)
0
0
0
1
7 bit AD Converter enabled for single mode, stop
0
1
0
1
7 bit AD Converter enabled for single mode start. To
restart single mode write the same bits once more.
0
0
1
1
7 bit AD Converter enabled for continuos mode run.
0
x
x
1
7 bit AD Converter enabled for single or continous mode
0
x
x
0
7 bit AD Converter disabled for single and continous
mode
0
1
IF_DAC4 enabled (see subaddress 07H)
0
0
IF_DAC4 disabled (see subaddress 07H)
0
1
0
0
Phase detector 1
Phase detector 0
0
1
1
Chargepump current Icp3 = 4mA
0
1
0
Chargepump current Icp2 = 2mA
0
0
1
Chargepump current Icp1 = 1mA
0
0
0
Chargepump current Icp0 = 500uA
0
1
Chargepump enabled
0
0
Chargepump disabled
Subaddress 01H, R_Counter and
Subaddress 02H, N_Counter
MSB
LSB MSB
LSB
Function
D15
D14 D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Divider by 65535
0
0
0
0
0
1
1
1
1
1
0
1
0
0
0
0
Divider by 2000
0
0
0
0
0
1
0
0
1
1
0
0
1
1
1
0
Divider by 1230
0
0
0
0
0
0
1
1
1
1
1
0
1
0
0
0
Divider by 1000
0
0
0
0
0
0
1
0
0
1
1
0
0
1
1
1
Divider by 615
0
0
0
0
0
0
0
0
0
1
1
0
0
1
0
0
Divider by 100
0
0
0
0
0
0
0
0
0
0
0
0
1
0
1
0
Divider by 10
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
Divider by 2
Semiconductor Group
22
1.6.99
Specification
Subaddress 05H, IF_Count_P2,
Centerfrequency = CF, CFstep= 6.25kHz / 12.5kHz)
Subaddress 03H, Mute_DAC7
MSB
D7
LSB
D6
D5
D4
D3
D2
TUA 4401
D1
D0
MSB
Function
D7
LSB
D6
D5
D4
D3
D2
D1
D0
Function
1
Mute_DAC7 enabled
1
Centerfequency CF1
0
x
x
x
x
x
x
x
Mute_DAC7 disabled,
full mute
0
Centerfequency CF0
1
1
1
1
1
1
1
1
Mute_DAC full scale
mute off
1
1
1
1
1
1
1
1
CF1= 22.3875 MHz
typical attenuation
0
1
1
1
1
1
1
1
CF0= 11.1937 MHz
1
1
1
1
0
0
0
1
Mute -5 dB
1
1
1
0
1
0
0
1
Mute - 10 dB
1
1
0
0
0
0
0
0
CF1= 22.600 MHz
1
1
1
0
0
0
1
0
Mute - 15 dB
0
1
0
0
0
0
0
0
CF0= 10.800 MHz
1
1
0
1
1
0
1
1
Mute - 20 dB
1
1
0
1
0
0
1
1
Mute - 25 dB
1
0
1
1
0
0
0
1
CF1= 21.4125 MHz
1
1
0
0
1
1
0
0
Mute - 30 dB
0
0
1
1
0
0
0
1
CF0= 10.70625 MHz
1
1
0
0
0
1
0
0
Mute - 35 dB
1
0
1
1
0
0
0
0
CF1= 21.400 MHz
1
0
1
1
1
1
0
1
Mute - 40 dB
0
0
1
1
0
0
0
0
CF0= 10.700 MHz
1
0
1
0
1
1
1
1
CF1= 21.3875 MHz
0
0
1
0
1
1
1
1
CF0= 10.69375 MHz
1
0
1
0
0
0
0
0
CF1= 21.200 MHz
0
0
1
0
0
0
0
0
CF0= 10.600 MHz
1
0
0
1
0
0
0
0
Full mute
1
0
0
1
0
0
0
0
Full mute
1
0
0
1
0
0
0
0
Full mute
Subaddress 04H, IF_Count_P1
MSB
D7
LSB
D6
D5
D4
D3
D2
D1
D0
Function
1
0
0
1
0
0
0
0
CF1= 21.000 MHz
0
0
0
1
0
0
0
0
CF0= 10.500 MHz
1
IF_Count enabled
0
IF_Count disabled
1
0
0
0
0
0
0
0
CF1= 20.800 MHz
not used (must be=0)
0
0
0
0
0
0
0
0
CF0= 10.400 MHz
0
1
0
0
Window=+/-100kHz*
0
1
1
Window=+/-50kHz*
Centerfrequencies for
0
1
0
Window=+/-25kHz*
D7=1
0
0
1
Window=+/-12.5kHz*
D7=0
0
0
0
Window=+/-6.25kHz*
1
1
1
Gatetime= 40.96ms
1
1
0
Gatetime= 20.48ms
1
0
1
Gatetime= 10.24ms
1
0
0
Gatetime= 5.12ms
0
1
1
Gatetime= 2.56ms
0
1
0
Gatetime= 1.28ms
0
0
1
Gatetime= 640us
0
0
0
Gatetime= 320us
CF1= 20.800 MHz +n*12.5 kHz, CFStep=12.5kHz
CF0= 10.400 MHz +n*6.25 kHz, CFStep=12.5kHz
n=0...127
* Valid for D7= 0 in subaddress 05H
Multiply window value with 2 for D7= 1 in subaddress 05H
(e. g. D7= 0
D7= 1
Window =+/- 6.25 kHz
Window =+/- 12.5 kHz)
Semiconductor Group
23
1.6.99
Specification
Subaddress 06H, Specials
Subaddress 07H, IF_DAC4
MSB
D7
LSB
D6
D5
D4
D3
TUA 4401
D2
D1
D0
1
MSB
Function
XTAL_DIV6 enabled
LSB
D7
D6
D5
D4
x
x
x
x
D3
D2
D1
D0
Function
not used
XTAL_DIV6 disabled
1
1
1
1
IF_DAC Gain adj.
typ. 16 dB
1
1st LO divided by 1
1
1
1
0
IF_DAC Gain adj.
0
1st LO divided by 2
1
1
0
1
IF_DAC Gain adj.
1
1
0
0
IF_DAC Gain adj.
0
0
0
Prest. AGC threshold typ.
15 mV
0
1
Prest. AGC threshold typ.
30 mV
1
0
1
1
IF_DAC Gain adj.
typ. 21 dB
1
0
Prest. AGC threshold typ.
45 mV
1
0
1
0
IF_DAC Gain adj.
1
1
Prest. AGC threshold typ.
60 mV
1
0
0
1
IF_DAC Gain adj.
1
1
1
1
XTAL_adjust CL = 15 pF
1
0
0
0
IF_DAC Gain adj.
1
1
1
0
XTAL_adjust CL = 14pF
0
1
1
1
IF_DAC Gain adj.
1
1
0
1
XTAL_adjust CL = 13 pF
0
1
1
0
IF_DAC Gain adj.
1
1
0
0
XTAL_adjust CL = 12 pF
0
1
0
1
IF_DAC Gain adj.
1
0
1
1
XTAL_adjust CL = 11 pF
0
1
0
0
IF_DAC Gain adj.
typ. 24 dB
1
0
1
0
XTAL_adjust CL = 10 pF
0
0
1
1
IF_DAC Gain adj.
1
0
0
1
XTAL_adjust CL = 9 pF
0
0
1
0
IF_DAC Gain adj.
1
0
0
0
XTAL_adjust CL = 8 pF
0
0
0
1
IF_DAC Gain adj.
0
1
1
1
XTAL_adjust CL = 7 pF
0
0
0
0
IF_DAC Gain adj.
typ. 26 dB
0
1
1
0
XTAL_adjust CL = 6 pF
0
1
0
1
XTAL_adjust CL = 5 pF
0
1
0
0
XTAL_adjust CL = 4 pF
0
0
1
1
XTAL_adjust CL = 3 pF
0
0
1
0
XTAL_adjust CL = 2 pF
0
0
0
1
XTAL_adjust CL = 1pF
0
0
0
0
XTAL_adjust CL = 0pF
Subaddress 0BH, Comp preset
MSB
D15
D14
D13
D12
D11
D10
D9
LSB
MSB
D8
D7
X
LSB
D6
D5
D4
D3
D2
D1
D0
X
6
FP2
FP2
5
FP2
4
3
FP2
2
FP2
1
FP2
FP2
Function
not used
0
Preset value Fieldstrength
MP26 MP25 MP24 MP23 MP22
MP21
MP20
Preset value Multipath
Subaddress 82H, Read Results from Fieldstrength, Multipath and IF counter
MSB
D15
LSB MSB
D14
D13
D12 D11
D10
D9
D8
D7
LSB
D6
D5
D4
D3
D2
D1
D0
Function
1
1
IF_counter result: IF frequency is outside the
desired window. IF frequency is lower as the
desired IF frequency.
0
1
IF_counter result: IF frequency is outside the
desired window.IF frequency is higher as the
desired IF frequency.
x
0
IF_counter result: IF frequency is inside the
desired window
M26
M25
M24
M23
M22
M21
M20
Result multipath byte M6...M0
F26
Semiconductor Group
F25
F24
24
F23
F22
F21
F20
Result Fieldstrength byte F6...F0
1.6.99
Specification
TUA 4401
Subaddress 83H, Read results misc
MSB
Semiconductor Group
LSB
D7
D6
1
D5
D4
Function
D3
D2
D1
D0
1
Res
Res
Res
Res
IF_counter result: IF frequency is outside the
desired window. IF frequency is lower as the
desired IF frequency.
0
1
Res
Res
Res
Res
IF_counter result: IF frequency is outside the
desired window.IF frequency is higher as the
desired IF frequency.
x
0
Res
Res
Res
Res
IF_counter result: IF frequency is inside the
desired window
1
Fieldstrengthsignal is higher as the preseted
value in subaddres 0BH (D8...D14)
0
Fieldstrengthsignal is lower as the preseted value
in subaddres 0BH (D8...D14)
1
Multipathsignal is higher as the preseted value in
subaddres 0BH (D0...D6)
0
Multipathsignal is lower as the preseted value in
subaddres 0BH (D0...D6)
25
1.6.99
Specification
TUA 4401
8.13.2 I2C Bus Timing
BUS_MODE = LOW
tBUF
SDA
tHD.STA
tR
tSP
tF
tLOW
SCL
tHD.STA
P
S
tHD.DAT
tHIGH
tSU.DAT
tSU.STA
tSU.STO
P
S
tHIGH
BUS_ENA
pulsed or
mandatory low
tSU.ENASDA
tSU.ENASDA
tSU.ENASDA
3W-Bus Timing
BUS_MODE = HIGH
SDA
S
tHD.STA
SCL
tSP
tLOW t
R
tF
tHD.DAT
tHIGH
P
tSU.DAT
tSU.STO
BUS_ENA
tSU.STAENA
tSU.STOENA
tWHEN
Semiconductor Group
26
1.6.99
Specification
Parameter
Symbol
LOW level input voltage
(SDA, SCL, BUS_ENA, BUS_MODE)
HIGH level input voltage
(SDA, SCL, BUS_ENA, BUS_MODE)
TUA 4401
Limit Values
Unit
min.
max.
VIL
-0.5
0.90
V
VIH
2.10
5.50
V
Pulse widh of spikes which must be suppressed by the
tSP
input filter
0
50
ns
LOW level output voltage 3mA sink current (SDA)
VOL
0
0.40
V
Output fall time from VIHmin to VILmax with a bus
capcitance from 10pF to 400pFwith up to 3mA
tfOF
20+0.1Cb3) 250
ns
fSCL
0
kHz
tBUF
1.3
us
Hold time (repeated) START condition. After this
period, the first clock pulse is generated. 1)
tHO.STA
0.6
us
LOW period of the SCL clock
tLOW
1.3
us
tHIGH
0.6
us
tSU.STA
0.6
us
Data hold time
tHD.DAT
0
ns
Data set -up time
tSU.DAT
100
SCL clock frequency
Bus free time between a STOP and START condition
1)
HIGH period of the SCL clock
Set-up time for a repeated START condition
1)
Rise, fall time of both SDA and SCL signals
Set-up time for STOP condition
1)
Capacitive load for each bus line
Setup time SCL to BUS_ENA
tR, tF
20+0.1Cb
tSU.STO
0.6
H-pulsewidth (BUS_ENA)
ns
3)
300
ns
us
400
Cb
2)
400
pF
tSU.SCLEN
0.6
us
tWHEN
0.6
us
1)
only in I2C bus mode
only in 3W bus mode
3)
Cb= capacitance of one bus line in pF.
Note that the maximum tF for the SDA and SCL bus lines quoted at 300ns is longer than the specified maximum tOF for the output stages (250ns).This allows series protection resistors to be connected between the
SDA / SCL pins and the SDA /SCL bus lines without exceeding the maximum specified tF.
2)
Semiconductor Group
27
1.6.99
Specification
9
TUA 4401
Electrical Characteristics
9.1 Absolute Maximum Ratings
The maximal ratings may not be exceeded under any circumstances, not even momentary and individual, as
permanent damage to the IC will result.
Parameter
Symbol
ESD-Protection all bipolar pins
HBM ( R=1.5kΩ , C=100pF )
Limit Values
Units
min.
max.
VESD
-2
2
kV
ESD-Protection all CMOS pins
HBM ( R=1.5kΩ , C=100pF )
VESD
t.b.d.
t.b.d.
kV
Total power dissipation
Ptot
900
mW
Ambient temperature
TA
85
°C
Junction temperature
Tj
150
°C
Storage temperature
Tstg
125
°C
Thermal resistance P-MQFP-64 (sys-air)
TthSA
54
K/W
- 40
- 40
All values are referred to ground (pin), unless stated otherwise.
All currents are designated according to the source and sink principle, i.e. if the device pin is to be regarded as a sink (the current
flows into the stated pin to internal ground), it has a negative sign, and if it is a source (the current flows from Vs across the
designated pin), it has a positive sign.
Semiconductor Group
28
1.6.99
Specification
TUA 4401
9.2 Operating Range
Within the operational range the IC operates as described in the circuit description.
The AC / DC characteristic limits are not guaranteed.
Parameter
Symbol
Supply voltage
VVCC
Current consumption
Ivcc
Ambient temperature
TA
Limit Values
Unit
min
max
8
9
V
100
mA
85
°C
- 40
Test Conditions
9.3 AC/DC Characteristics
AC / DC characteristics involve the spread of values guaranteed in the specified supply voltage and ambient
temperature range. Typical characteristics are the median of the production.
Parameter
TA = 25 °C,VVCC = 8.5V
Symbol
Limit Values
min
typ
max
Unit
Test conditions
Power supply
Total current consumption
85
IVCC
mA
1st local oscillator
Frequency range
f1st LO
50
250
MHz
Frequency range
f1st LO
80
150
MHz
Q factor of coil > tbf
Frequency range
f1st LO
160
250
MHz
coil tbf; see SUB06h
Negative input impedance
Z27-28
Ω
f = 100 MHz
- tbf
RF mixer
Input frequency
f31-32
60
140
MHz
Max input RF level
V31-32
120
Input impedance
single ended
R31/32
tbf
Ω
C31/32
tbf
pF
Mixer gain
Amix
tbf
dB
tbf
dBµV
dBµV
Input IP3
Noise Figure
F
tbf
dB
Reference voltage RF section
V39
4.8
V
Prestage AGC outputs
AGC threshold range
V31-32
15
60
6.4
AGC voltage for MOSFET Gate 2 V30
0.1
AGC voltage for MOSFET Gate 2 V30
12
mV
see diagram SUB06h
V
V31-32 = 0 mV
V
V31-32 = 200 mV
mA
V31-32 = 0 mV
mA
V31-32 = 200 mV
mA
V31-32 = 200 mV
mA
V31-32 = 0 mV
AGC current normal polarity
I35
AGC current normal polarity
I35
AGC current inverse polarity
I34
AGC current inverse polarity
I34
Integrator current
I30
-50
µA
V31-32 = 0 mV;
Vm = 3V
Integrator current
I30
50
µA
V31-32 = 200 mV;
Vm = 3V
Semiconductor Group
0.1
12
0.1
29
1.6.99
Specification
Parameter
TA = 25 °C,VVCC = 8.5V
Symbol
TUA 4401
Limit Values
min
typ
max
Unit
Test conditions
IF amplifier
DC input voltage
V41
4
V
Input resistance
R41
330
Ω
Output resistance
R45
330
Ω
Voltage gain
A45-41
26
dB
V44 = 1.5 V; see also
diagram SUB07h
Voltage gain
A45-41
16
dB
V44 = 3.5 V; see also
diagram SUB07h
Noise figure
F
7
dB
RG = 330 Ω
IF limiter amplifier / fieldstrength generator
Input voltage for limiter threshold
V49
25
µVrms
fin = 10.7 MHz;
V54 - 3 dB
AM suppression
AAM
80
dB
m = 30 %
Fieldstrength voltage
V55
V
V49 = 0 mVrms
Fieldstrength voltage
V55
tbf
V
V49 = 1 mVrms
Fieldstrength voltage
V55
tbf
V
V49 = 10 mVrms
Fieldstrength voltage
V55
4.5
V
V49 = 200 mVrms
Fieldstrength dynamic range
V55dyn
90
dB
Fieldstrength linearity
V55lin
±1
dB
Fieldstrength temperature drift
V55temp
0.5
±3
dB
FM demodulator / soft mute
AF output voltage
V54
600
mVrms
∆F = 75 kHz;
fIF=10.7 MHz
AF output voltage
V54
300
mVrms
∆F = 75 kHz;
fIF= 21.4 MHz
Total harmonic distortion
THD54
0.5
%
∆F = 75 kHz
0.8
%
fin = 10.7 MHz
± 50 kHz;
∆F = 75 kHz
38
dB
V53 = 0 V; see diagram
SUB03h
dB
V53 = 0 V; see diagram
SUB03h
Total harmonic distortion detuned THD54
AF mute depth range
a54
0
AF full mute
a54
80
Multipath detector
Attack current
I58*)
800
µA
V56 = 1 Vpp;
Vm = 5 V
Recovery current
I58*)
-9
µA
V56 = 0 Vpp;
Vm = 3.6 V
Start voltage
V59Def
4.7
V
V56 = 0 Vpp
Detector characteristic
V59
V59Def
- 0.1 V
V
f56 = 25 kHz
V56 = 160 mVpp
Detector characteristic
V59
V59Def
-1V
V
f56 = 200 kHz
V56 = 160 mVpp
Reference voltage IF
V43
4.8
V
Semiconductor Group
30
1.6.99
Specification
Parameter
TA = 25 °C,VVCC = 8.5V
Symbol
TUA 4401
Limit Values
min
typ
max
Unit
Test conditions
*) Detector currents are measured between the output pin (pole) and a voltage source Vm
Crystal oscillator
Operating frequency
f16-17
61.5
MHz
3rd harmonic
Negative input impedance
Z16-17
- 250
Ω
f = 61.5 MHz
Negative input impedance
Z16-17
1.4
kΩ
f = 20.5 MHz
Input impedance crystal
Rcr
tbd
Ω
3rd harmonic
Spurious harmonics crystal
asp
- 20
dB
f < 200 MHz
Bus controlled adjust range
∆fadj
± 40
ppm
see diagram SUB06h
Bus controlled output XTAL_DIV6
VXTAL_DIV6
on AC
500
mVpp
f = 10.25 MHz,
Cload = 10 pF
Bus controlled output XTAL_DIV6
VXTAL_DIV6
on DC
1.5
VDC
f = 10.25 MHz,
Cload = 10 pF
Bus controlled output XTAL_DIV6
VXTAL_DIV6
off DC
50
mVDC Cload = 10 pF
Chargepump output (Loopfilter input)
2.5
V
locked
DC voltage
VPD_0/1
DC current
±IPD_0/1_3
3.2
4
4.8
mA
DC current
±IPD_0/1_2
1.6
2
2.4
mA
DC current
±IPD_0/1_1
0.8
1
1.2
mA
DC current
±IPD_0/1_0
400
500
600
uA
Tristate output current
±IPD_0/
0.1
10
nA
VPD_0/1 = 1.5V ,
guaranteed by design
1_OFF
see Status,
Subaddress 00H,
bit D1, D2
VPD_0/1 = 1.5V
Loop amplifier tuningvoltage output (Loopfilter output)
LOW output voltage
VPDA_L
0
tbd.
400
mV
ITUNE = 100 uA
HIGH output voltage
VPDA_H
VVCC0.5V
tbd.
VCC
mV
ITUNE = -100 uA
mA
VTUNE = 4V,
VPD_0/1 = 0V
(see Status,
Subaddress 00H,
bit D11)
mA
VTUNE = 4V,
VPD_0/1 = 0V
(see Status,
Subaddress 00H,
bit D11)
kHz
f crystal = 61.5 MHz
HIGH output current source
LOW output current source
2.4
IPDA_H
1.2
IPDA_L
PLL for synthesizer
(see PLL Synthesizer on page 17)
PLL / VCO step size
(programmable via R-counter)
fref
6.25
100
N-counter divide ratio
N
2
65535
16-Bit
R-counter divide ratio
R
2
65535
16-Bit
Semiconductor Group
31
1.6.99
Specification
Parameter
TA = 25 °C,VVCC = 8.5V
Symbol
TUA 4401
Limit Values
min
typ
Unit
Test conditions
400
mV
IP = 1 mA
100
nA
VP = 5 V
max
Port outputs, PORT_1, PORT_2, IF_CENT, IF_WINDOW
(see Output ports on page 16)
LOW output voltage
VP
0
HIGH Leackage current
IP_LEACK
0
100
I2C / 3-Wire-bus (BUS_MODE, SCL, SDA, BUS_ENA)
(see I2C Bus Timing on page 26 and Bus Data Format on page 20)
H-input voltage
VIH
2.10
5.50
V
L-input voltage
VIL
-0.5
0.90
V
Hysteresis of Schmitt trigger
inputs (BUS_MODE, SCL, SDA,
BUS_ENA)
Vhys
Input capacity
CI
Semiconductor Group
0.30
V
5
32
pF
1.6.99
Specification
TUA 4401
10 Package Outline
Semiconductor Group
33
1.6.99