Philips TDA6405TS-C2, TDA6405ATS-C1 Datasheet

DATA SH EET

Product specification
Supersedes data of 1998 Jan 19
File under Integrated Circuits, IC02

1999 Jan 13

INTEGRATED CIRCUITS

TDA6404; TDA6405; TDA6405A

5 V mixer/oscillator-PLL
synthesizers for hyperband tuners

1999 Jan 13 2

Philips Semiconductors Product specification

5 V mixer/oscillator-PLL synthesizers
for hyperband tuners

TDA6404; TDA6405;

TDA6405A

FEATURES

• Single chip 5 V mixer/oscillator-PLL synthesizer for
hyperband tuners

• I2C-bus protocol

• 3 PNP band switch buffers (25 mA)

• 33 V tuning voltage output

• In-lock detector

• 5-level Analog-to-Digital Converter (ADC)

• 15-bit programmable divider

• Programmable reference divider ratio

(512, 640 or 1024)

• Programmable charge pump current

• Balanced mixer with a common emitter input for VHF

(single input)

• Balanced mixer with a common base input for UHF
(double input)

• 4-pin common emitter oscillator for VHF

• 4-pin common emitter oscillator for UHF

• IF amplifier with a low output impedance to drive a SAW
filter directly (≈2kΩ load)

• Low power, low radiation, small size

APPLICATIONS

• Hyperband tuners for Europe using a 2-band
mixer/oscillator in a switched concept.

GENERAL DESCRIPTION

The TDA6404, TDA6405 and TDA6405A are
programmable 2-band mixer/oscillator-PLL synthesizers
intended for VHF/UHF and hyperband tuners (see Fig.1).

The devices include two double balanced mixers and two
oscillators for the VHF and UHF band, an IF amplifier and
a PLL synthesizer. With proper oscillator application and
by using a switchable inductor to split the VHF band into
two sub-bands (the full VHF/UHF and hyperband) the TV
bands can be covered.

Two pins are available between the mixer output and the
IF amplifier input to enable IF filtering for improved signal
handling. Three PNP ports are provided for band
switching. Band selection is made according to the band
switch bits VHFL, VHFH and UHF.

The PLL synthesizer consists of a divide-by-eight
prescaler, a 15-bit programmable divider, a 4 MHz crystal
oscillator and its programmable reference divider and a
phase comparator combined with a charge pump which
drives the tuning amplifier, including 33 V output.

Depending on the reference divider ratio (512, 640
or 1024), the phase comparator operates at 7.8125 kHz,

6.25 kHz or 3.90625 kHz.
The devices are controlled according to the I

2

C-bus
format. The in-lock detector bit FL is set to logic 1 when the
loop is locked and is read on the SDA line (status byte)
during a read operation. The ADC input is available for
digital Automatic Frequency Control (AFC). The ADC code
is read during a read operation on the I2C-bus
(see Table 9). In test mode, pin ADC is used as a test
output for f

REF

and1⁄2f

DIV

.

When the charge pump current switch mode is activated
and the loop is phase-locked the charge pump current
value is automatically switched to LOW. This is to improve
carrier-to-noise ratio. The status of this feature can be read
in the ACPS flag during a read operation on the I2C-bus
(see Table 7).

Five serial bytes (including address byte) are required for
the I2C-bus format to address the devices, select the VCO
frequency, program the three PNP ports, set the charge
pump current and to set the reference divider ratio.
The devices have four independent I2C-bus addresses
which can be selected by applying a specific voltage on the
AS input (see Table 4).

1999 Jan 13 3

Philips Semiconductors Product specification

5 V mixer/oscillator-PLL synthesizers for
hyperband tuners

TDA6404; TDA6405;

TDA6405A

QUICK REFERENCE DATA

ORDERING INFORMATION

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

V

CC

supply voltage operating 4.5 5 5.5 V

I

CC

supply current all PNP ports are ‘OFF’ − 78 − mA

f

XTAL

crystal oscillator frequency R

XTAL

= 25 to 150 Ω 3.2 4.0 4.48 MHz

I

o(PNP)

PNP port output current −−25 mA

T

stg

IC storage temperature −40 − +150 °C

T

amb

operating ambient temperature −20 − +85 °C

f

(i)RF

RF input frequency VHF band 45.25 − 399.25 MHz

UHF band 407.25 − 855.25 MHz

G

V

voltage gain VHF band − 27 − dB

UHF band − 38 − dB

F noise figure VHF band − 8 − dB

UHF band − 8.5 − dB

V

o

output voltage causing 1% cross
modulation in channel

VHF band − 119 − dBµV
UHF band − 118 − dBµV

TYPE

NUMBER

PACKAGE

NAME DESCRIPTION VERSION

TDA6404TS;
TDA6405TS;
TDA6405ATS

SSOP28 plastic shrink small outline package; 28 leads; body width 5.3 mm SOT341-1

1999 Jan 13 4

Philips Semiconductors Product specification

5 V mixer/oscillator-PLL synthesizers for
hyperband tuners

TDA6404; TDA6405;

TDA6405A

BLOCK DIAGRAM

Fig.1 Block diagram.

The pin numbers in parenthesis represent the TDA6405 and TDA6405A.

handbook, full pagewidth

MGK813

XTAL

OSCILLATOR

4 MHz

REFERENCE

DIVIDER

512, 640, 1024

PRESCALER

DIVIDE BY 8

15-BIT

PROGRAMMABLE

DIVIDER

POWER-ON

RESET

DIGITAL

PHASE

COMPARATOR

CHARGE

PUMP

TUNING
AMPLIFIER

UHF

OSCILLATOR

IF

AMPLIFIER

VHF

OSCILLATOR

RF INPUT

UHF

ELECTRONIC

BAND SWITCH

RF INPUT

VHF

UHF

MIXER

VHF

MIXER

IN-LOCK

DETECTOR

15-BIT

FREQUENCY

REGISTER

5-LEVEL A/D

CONVERTER

GATE

7-BIT CONTROL

REGISTER

LOGIC

OS

T2, T1, T0

T2, T1, T0

BS

CHP

T2 T1 T0 RSA RSB OSCHP

3-BIT BAND SWITCH

REGISTER

VHFL VHFH UHF

I2C-BUS

TRANSCEIVER

FL

f

REF

1/2f

DIV

FL

FL

TDA6404
TDA6405

TDA6405A

f

REF

f

DIV

1/2f

DIV

RSA

RSB

AS

SDA

SCL

AS

SDA

SCL

(3) 26
(2) 27
(1) 28

(4) 25

(11) 18

(10) 19

(5) 24
(6) 23
(7) 22

(15) 14

(14) 15

(8) 21

16 (13)

2 (27)

1 (28)

4 (25)

3 (26)

12 (17)
11 (18)
10 (19)

BS

BSVHF

BSUHF

5 (24) 17 (12)

IFFIL1

V

CC

V

CC

6 (23)

IFFIL2

13 (16) 7 (22) 8 (21) 9 (20)

(9) 20

UHFOSCIB1

UHFOSCOC1

VT

GND

CP

UHFOSCOC2

UHFOSCIB2

VHFOSCIB2

IFOUT1

IFOUT2

VHFOSCOC1
VHFOSCOC2

VHFOSCIB1

PVHFL

ADC

PVHFH

PUHF

UHFIN1
UHFIN2

VHFIN

RFGND

XTAL

BSVHF

BSUHF

1999 Jan 13 5

Philips Semiconductors Product specification

5 V mixer/oscillator-PLL synthesizers for
hyperband tuners

TDA6404; TDA6405;

TDA6405A

PINNING

SYMBOL

PIN

DESCRIPTION

TDA6404

TDA6405;

TDA6405A

UHFIN1 1 28 UHF input 1
UHFIN2 2 27 UHF input 2
VHFIN 3 26 VHF input
RFGND 4 25 RF ground
IFFIL1 5 24 IF filter output 1
IFFIL2 6 23 IF filter output 2
PVHFL 7 22 PNP port output for VHF low band
PVHFH 8 21 PNP port output for VHF high band
PUHF 9 20 PNP port output for UHF band
AS 10 19 address selection input
SDA 11 18 serial data input/output (I

2

C-bus)

SCL 12 17 serial clock input (I

2

C-bus)
ADC 13 16 Analog-to-Digital Converter input/output
CP 14 15 charge pump output
VT 15 14 tuning output
XTAL 16 13 crystal oscillator input
V

CC

17 12 supply voltage
IFOUT1 18 11 IF amplifier output 1
IFOUT2 19 10 IF amplifier output 2
GND 20 9 ground
UHFOSCIB1 21 8 UHF oscillator base input 1
UHFOSCOC1 22 7 UHF oscillator collector output 1
UHFOSCOC2 23 6 UHF oscillator collector output 2
UHFOSCIB2 24 5 UHF oscillator base input 2
VHFOSCIB1 25 4 VHF oscillator base input 1
VHFOSCOC1 26 3 VHF oscillator collector output 1
VHFOSCOC2 27 2 VHF oscillator collector output 2
VHFOSCIB2 28 1 VHF oscillator base input 2

1999 Jan 13 6

Philips Semiconductors Product specification

5 V mixer/oscillator-PLL synthesizers for
hyperband tuners

TDA6404; TDA6405;

TDA6405A

Fig.2 Pin configuration for TDA6404.

handbook, halfpage

UHFIN1
UHFIN2

VHFIN

RFGND

IFFIL1
IFFIL2

PVHFL

PVHFH

PUHF

AS

SDA

SCL

ADC

CP

VHFOSCIB2

GND
IFOUT2
IFOUT1
V

CC

XTAL
VT

1
2
3
4
5
6
7
8

9
10
11
12
13

28
27
26
25
24
23
22
21
20
19
18
17
16
1514

TDA6404

MGK830

UHFOSCIB1

UHFOSCOC1

UHFOSCOC2

UHFOSCIB2

VHFOSCIB1

VHFOSCOC2
VHFOSCOC1

handbook, halfpage

UHFIN1
UHFIN2
VHFIN
RFGND
IFFIL1
IFFIL2
PVHFL
PVHFH
PUHF
AS
SDA
SCL
ADC

VT

VHFOSCIB2

GND
IFOUT2
IFOUT1

V

CC

XTAL

CP

1
2
3
4
5
6
7
8

9
10
11
12
13

28
27
26
25
24
23
22
21
20
19
18
17
16
1514

TDA6405

TDA6405A

MGK831

UHFOSCIB1

UHFOSCOC1

UHFOSCOC2

UHFOSCIB2

VHFOSCIB1

VHFOSCOC2
VHFOSCOC1

Fig.3 Pin configuration for TDA6405(A)

FUNCTIONAL DESCRIPTION

The devices are controlled via the I2C-bus.
For programming, there is one module address (7 bits)
and the R/W bit for selecting the read or write mode.

Write mode

Data bytes can be sent to the devices after the address
transmission (first byte) by setting the R/

W bit to logic 0.
Four data bytes are needed to fully program the devices.
The I2C-bus transceiver has an auto-increment facility
which permits the programming of the devices within one
single transmission (address + 4 data bytes).

The devices can also be partially programmed, providing
that the first data byte following the address is divider
byte 1 (DB1) or control byte (CB). The bits in the data
bytes are defined in Tables 1 and 2.

The first bit of the data byte transmitted indicates whether
frequency data (first bit = 0) or control and band switch
data (first bit = 1) will follow. Until an I

2

C-bus STOP
condition is sent by the controller, additional data bytes
can be entered without the need to re-address the devices.
The frequency register is loaded after the 8th clock pulse
of the second divider byte (DB2). The control register is
loaded after the 8th clock pulse of the CB. The band switch
register is loaded after the 8th clock pulse of the band
switch byte (BB).

1999 Jan 13 7

Philips Semiconductors Product specification

5 V mixer/oscillator-PLL synthesizers for
hyperband tuners

TDA6404; TDA6405;

TDA6405A

Table 1 I2C-bus mode, write data format for the TDA6404 and TDA6405

Table 2 I

2

C-bus mode, write data format for the TDA6405A

I

2

C-bus address selection

The module address contains programmable address bits (MA1 and MA0) which offer the possibility of having several
synthesizers (up to 4) in one system by applying a specific voltage on the AS input. The relationship between MA1 and
MA0 and the input voltage applied to the AS input is given in Table 4.

Table 3 Description of symbols used in Tables 1 and 2

NAME BYTE

BITS

ACK

MSB LSB

Address byte ADB 11000MA1MA0R/

W=0 A
Divider byte 1 DB1 0 N14 N13 N12 N11 N10 N9 N8 A
Divider byte 2 DB2 N7 N6 N5 N4 N3 N2 N1 N0 A
Control byte CB 1 CHP T2 T1 T0 RSA RSB OS A
Band-switch byte BB XXXXXUHFVHFH VHFL A

NAME BYTE

BITS

ACK

MSB LSB

Address byte ADB 11000MA1MA0R/

W=0 A
Divider byte 1 DB1 0 N14 N13 N12 N11 N10 N9 N8 A
Divider byte 2 DB2 N7 N6 N5 N4 N3 N2 N1 N0 A
Control byte CB 1 CHP T2 T1 T0 RSA RSB OS A
Band-switch byte BB XXXXUHFXVHFH VHFL A

SYMBOL DESCRIPTION

A acknowledge
MA1 and MA0 programmable address bits (see Table 4)
N14 to N0 programmable divider bits; N = N14 × 2

14

+ N13 × 213+ ... + N1 × 21+N0

CHP charge pump current bit:

CHP = 0; ICP=60µA
CHP = 1; I

CP

= 280 µA (default)
T2, T1 and T0 test bits (see Table 5)
RSA and RSB reference divider ratio select bits (see Table 6)
OS tuning amplifier control bit:

OS = 0; normal operation; tuning voltage is ‘ON’
OS = 1; tuning voltage is ‘OFF’ (high-impedance)

UHF, VHFH and VHFL PNP ports control bits:

bit = 0; buffer n is ‘OFF’ (default)
bit = 1; buffer n is ‘ON’

X don’t care bit: may be a logic 0 or a logic 1

1999 Jan 13 8

Philips Semiconductors Product specification

5 V mixer/oscillator-PLL synthesizers for
hyperband tuners

TDA6404; TDA6405;

TDA6405A

Table 4 Address selection I2C-bus

Table 5 Test mode

Notes

1. This is the default mode at Power-on reset.

2. The ADC input cannot be used when these test modes are active.

Table 6 Reference divider ratio select bits

MA1 MA0 VOLTAGE APPLIED ON AS INPUT

0 0 0 to 0.1V

CC

0 1 open or 0.2VCCto 0.3V

CC

1 0 0.4VCCto 0.6V

CC

1 1 0.9VCCto 1.0V

CC

T2 T1 T0 TEST MODES

0 0 0 automatic charge pump off
0 0 1 automatic charge pump on; note 1
0 1 X charge pump is ‘OFF’
1 1 0 charge pump is sinking current
1 1 1 charge pump is sourcing current
100f

REF

is available on pin ADC; note 2

101

1

⁄

2

f

DIV

is available on pin ADC; note 2

RSA RSB REFERENCE DIVIDER RATIO FREQUENCY STEP (kHz)

X 0 640 6.25
0 1 1024 3.90625
1 1 512 7.8125

Read mode

Data can be read from the devices by setting the R/W bit
to logic 1 (see Tables 7 and 8). After the slave address
has been recognized, the devices generate an
acknowledge pulse and the first data byte (status byte) is
transferred on the SDA line (MSB first). Data is valid on the
SDA line during a HIGH-level of the SCL clock signal.
A second data byte can be read from the devices if the
processor generates an acknowledge on the SDA line
(master acknowledge). End of transmission will occur if no
master acknowledge occurs. The devices will then release
the data line to allow the processor to generate a STOP
condition. The POR flag is set to logic 1 at power-on.
The flag is reset when an end-of-data is detected by the
devices (end of a read sequence). Control of the loop is
made possible with the in-lock flag FL which indicates
when the loop is locked (FL = 1).

The ACPS flag is LOW when the automatic charge pump
switch mode is ‘ON’ and the loop is locked. In other
conditions, ACPS = 1. When ACPS = 0, the charge pump
current is forced to the LOW value.

A built-in ADC is available on ADC pin. This converter can
be used to apply AFC information to the controller from the
IF section of the television. The relationship between the
bits A2, A1 and A0 is given in Table 9.

1999 Jan 13 9

Philips Semiconductors Product specification

5 V mixer/oscillator-PLL synthesizers for
hyperband tuners

TDA6404; TDA6405;

TDA6405A

Table 7 Read data format

Note

1. MSB is transmitted first.

Table 8 Description of symbols used in Table 7

Table 9 Analog-to-digital converter levels; note 1

Note

1. Accuracy is ±0.03V

CC

.

NAME BYTE

BITS

ACK

MSB

(1)

LSB

Address byte ADB 1 1000MA1MA0R/

W=1 A

Status byte SB POR FL ACPS 1 1 A2 A1 A0 −

SYMBOL DESCRIPTION

A acknowledge
POR Power-on reset flag (POR = 1 at power-on)
FL in-lock flag (FL = 1 when the loop is locked)
ACPS automatic charge pump switch flag:

ACPS = 0; active
ACPS = 1; not active

A2, A1 and A0 digital outputs of the 5-level ADC (see Table 9)

A2 A1 A0 VOLTAGE APPLIED ON ADC INPUT

1 0 0 0.60V

CC

to 1.00V

CC

0 1 1 0.45VCCto 0.60V

CC

0 1 0 0.30VCCto 0.45V

CC

0 0 1 0.15VCCto 0.30V

CC

0 0 0 0 to 0.15V

CC

Power-on reset

The power-on detection threshold voltage V

POR

is set to
VCC= 2 V at room temperature. Below this threshold, the
device is reset to the power-on state.

At power-on state, the charge pump current is set to
280 µA, the tuning voltage output is disabled, the test
bits T2, T1 and T0 are set to logic 001 (automatic charge
pump switch ‘ON’) and RSB is set to logic 1.

PUHF is ‘OFF’, which means that the UHF oscillator and
the UHF mixer are switched off. Consequently, the VHF
oscillator and the VHF mixer are switched on. PVHFL and
PVHFH are ‘OFF’, which means that the VHF tank circuit
is working in the VHF I sub-band. The tuning amplifier is
switched off until the first transmission. In that case, the
tank circuit in VHF I is supplied with the maximum tuning
voltage. The oscillator is therefore working at the end of
the VHF I sub-band.

1999 Jan 13 10

Philips Semiconductors Product specification

5 V mixer/oscillator-PLL synthesizers for
hyperband tuners

TDA6404; TDA6405;

TDA6405A

Table 10 Default bits at Power-on reset

LIMITING VALUES

In accordance with the Absolute Maximum Rating System (IEC 134) (note 1).

Note

1. Maximum ratings can not be exceeded, not even momentarily without causing irreversible IC damage.

Maximum ratings can not be accumulated.

THERMAL CHARACTERISTICS

NAME BYTE

BITS

MSB LSB

Address byte ADB 11000MA1MA0X
Divider byte 1 DB1 0 XXXXXXX
Divider byte 2 DB2 XXXXXXXX
Control byte CB 11001X10
Band-switch byte BB XXXX0000

SYMBOL PARAMETER MIN. MAX. UNIT

V

CC

supply voltage −0.3 +6 V

V

O(n)

output voltage on pins PVHFL, PVHFH and PUHF −0.3 +6 V

I

O(n)

output current on pins PVHFL, PVHFH and PUHF −1 +30 mA

V

O(CP

) charge pump output voltage −0.3 +6 V

V

O(VT)

tuning output voltage −0.3 +35 V

V

I/O(ADC)

ADC input/output voltage −0.3 +6 V

V

I(SCL)

serial clock input voltage −0.3 +6 V

V

I/O(SDA)

serial data input/output voltage −0.3 +6 V

I

O(SDA)

data output current −1 +10 mA

V

I(AS)

address selection input voltage −0.3 +6 V

V

I(XTAL)

crystal oscillator input voltage −0.3 +6 V

I

O(n)

output current of each pin to ground:

for TDA6404, pins 1 to 6 and 17 to 28 −−10 mA
for TDA6405 and TDA6405A, pins 1 to 12 and 23 to 28 −−10 mA

t

sc(max)

maximum short-circuit time (all pins to VCC and all pins to GND, RFGND) − 10 s

T

stg

IC storage temperature −40 +150 °C

T

amb

operating ambient temperature −20 +85 °C

T

j

junction temperature − 150 °C

SYMBOL PARAMETER CONDITIONS TYPICAL UNIT

R

th(j-a)

thermal resistance from junction to ambient in free air 85 K/W