INTEGRATED CIRCUITS
DATA SHEET
TDA6103Q
Triple video output amplifier
March 1994
Preliminary specification
File under Integrated Circuits, IC02
Philips Semiconductors
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Philips Semiconductors
Preliminary specification
Triple video output amplifier
TDA6103Q
PINNING
SYMBOL
Vi1
PIN
DESCRIPTION
inverting input 1
1
2
3
4
5
6
7
8
9
V
V
i1
1
2
3
4
5
6
7
8
9
i2
i3
Vi2
inverting input 2
inverting input 3
ground, fin
V
Vi3
GND
Vip
GND
non-inverting input
supply voltage
cathode output 3
cathode output 2
cathode output 1
V
TDA6103Q
ip
VDD
Voc3
Voc2
Voc1
V
DD
V
oc3
V
oc2
V
oc1
MGA969
Fig.2 Pin configuration.
LIMITING VALUES
In accordance with the Absolute Maximum Rating System (IEC 134). Voltages measured with respect to GND (pin 4);
currents as specified in Fig.1; unless otherwise specified.
SYMBOL
VDD
PARAMETER
supply voltage
CONDITIONS
MIN.
MAX.
250
UNIT
0
0
V
V
V
V
A
Vi
input voltage
12
+6
VDD
5
Vidm
Voc
differential mode input voltage
cathode output voltage
−6
0
IocsmL
LOW non-repetitive peak cathode
output current
flashover discharge = 50 µC
0
IocsmH
HIGH non-repetitive peak cathode
output current
flashover discharge = 100 nC
0
10
A
Tstg
Tj
storage temperature
junction temperature
electrostatic handling
human body model (HBM)
machine model (MM)
−55
−20
+150
+150
°C
°C
Ves
−
−
tbf
tbf
V
V
HANDLING
Inputs and outputs are protected against electrostatic discharge in normal handling. However, to be totally safe, it is
desirable to take normal precautions appropriate to handling MOS devices (see “Handling MOS Devices”).
QUALITY SPECIFICATION
Quality specification “SNW-FQ-611 part E” is applicable and can be found in the “Quality reference pocketbook” (ordering
number 9398 510 34011).
March 1994
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Philips Semiconductors
Preliminary specification
Triple video output amplifier
TDA6103Q
THERMAL RESISTANCE
SYMBOL
PARAMETER
THERMAL RESISTANCE
Rth j-fin
Rth h-a
from junction to fin; note 1
from heatsink to ambient
11 K/W
18 K/W
Note
1. An external heatsink is necessary.
Thermal protection
MGA972
The internal thermal protection circuit gives a decrease of
the slew rate at high temperatures: 10% decrease at
130 °C and 30% decrease at 145 °C (typical values on the
spot of the thermal protection circuit).
6
5
P
tot
(W)
4
3
2
1
(1)
(2)
OUTPUTS
5 K/W
Thermal protection circuit
6 K/W
0
–50
0
50
100
T
150
o
(
C)
amb
MGA970
FIN
(1) Infinite heatsink.
(2) No heatsink.
Fig.3 Power derating curves.
Fig.4 Equivalent thermal resistance network.
March 1994
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Philips Semiconductors
Preliminary specification
Triple video output amplifier
TDA6103Q
CHARACTERISTICS
Operating range: Tj = −20 to 150 °C; VDD = 180 to 210 V; Vip = 1 to 4 V.
Test conditions (unless otherwise specified): Tamb = 25 °C; VDD = 200 V; Vip = 1.3 V; Voc1 = Voc2 = Voc3 = 1⁄2VDD;
CL = 10 pF (CL consists of parasitic and cathode capacitance); Rth h-a = 18 K/W; measured in test circuit Fig.5.
SYMBOL
PARAMETER
CONDITIONS
MIN.
7.0
TYP.
9.25
MAX.
11.5
UNIT
mA
IDD
quiescent supply current
Ibias
input bias current inverting inputs
(pins 1, 2 and 3)
−5
−1
−3
−
+1
+1
+50
−
µA
Ibias
input bias current non-inverting
input (pin 5)
−15
−50
−
µA
Vi(offset)
input offset voltage
(pins 1, 2 and 3)
mV
mV/K
∆Vi(offset) differential input offset voltage
temperature drift between pins 1
and 5; 2 and 5; 3 and 5
tbf
Cicm
common-mode input capacitance
(pins 1, 2 and 3)
−
−
−
−
5
−
pF
pF
pF
V
Cicm
common-mode input capacitance
(pin 5)
10
1
−
Cidm
differential mode input capacitance
between 1 and 5; 2 and 5; 3 and 5
−
Voc(min)
minimum output voltage
(pins 7, 8 and 9)
V1−5 = V2−5 = V3−5 = −1 V
5
10
−
Voc(max) maximum output voltage
(pins 7, 8 and 9)
V1−5 = V2−5 = V3−5 = 1 V;
note 1
VDD − 10 VDD − 6
V
GB
gain-bandwidth product of
open-loop gain:
f = 500 kHz
−
0.75
−
GHz
V
oc1, 2, 3 / Vi1-5, 2-5, 3-5
BS
BL
tpd
small signal bandwidth
(pins 7, 8 and 9)
Voc(p-p) = 60 V
Voc(p-p) = 100 V
6
5
−
7.5
7
−
−
−
MHz
MHz
ns
large signal bandwidth
(pins 7, 8 and 9)
cathode output propagation delay
time 50% input to 50% output
(pins 7, 8 and 9)
Voc(p-p) = 100 V square
wave; f < 1 MHz;
tr = tf = 40 ns (pins 1, 2
and 3); see Figs 7 and 8
38
∆tp
difference in cathode output
propagation time 50% input to
Voc(p-p) = 100 V square
wave; f < 1 MHz;
−10
0
+10
ns
50% output (pins 7 and 8, 7 and 9 tr = tf = 40 ns (pins 1, 2
and 8 and 9)
and 3)
tr
tf
cathode output rise time 10%
output to 90% output
(pins 7, 8 and 9)
Voc = 50 to 150 V square
wave; f < 1 MHz; tf = 40 ns
(pins 1, 2 and 3); see Fig.7
48
48
60
60
73
73
ns
ns
cathode output fall time 90% output Vo = 150 to 50 V square
to 10% output (pins 7, 8 and 9)
wave; f < 1 MHz; tr = 40 ns
(pins 1, 2 and 3); see Fig.8
March 1994
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Philips Semiconductors
Preliminary specification
Triple video output amplifier
TDA6103Q
SYMBOL
PARAMETER
CONDITIONS
MIN.
TYP.
MAX.
350
UNIT
ns
ts
settling time 50% input to
(99% < output < 101%)
Voc(p-p) = 100 V square
wave; f < 1 MHz;
tr = tf = 40 ns (pins 1, 2
and 3); see Figs 7 and 8
−
−
−
−
−
SR
Ov
slew rate between
50 V to (VDD − 50 V);(pins 7, 8 and square wave (p-p);
V1−5 = V2−5 = V3−5 = 2 V
1600
5
−
−
−
V/µs
%
9)
f < 1 MHz; tr = tf = 40 ns
(pins 1, 2 and 3)
cathode output voltage overshoot
(pins 7, 8 and 9)
Voc(p-p) = 100 V square
wave; f < 1 MHz;
tr = tf = 40 ns (pins 1, 2
and 3); see Figs 7 and 8
SVRR
supply voltage rejection ratio
f < 50 kHz; note 2
70
dB
Notes
1. See also Fig.6 for the typical low-frequency response of Vi to Voc.
2. The ratio of the change in supply voltage to the change in input voltage when there is no change in output voltage.
needed (for this resistor-value, the CRT has to be
connected to the main PCB). This addition produces an
increase in the rise- and fall times of approximately 5 ns
and a decrease in the overshoot of approximately 3%.
Cathode output
The cathode output is protected against peak currents
(caused by positive voltage peaks during high-resistance
flash) of 5 A maximum with a charge content of 50 µC.
VDD to GND must be decoupled:
The cathode is also protected against peak currents
(caused by positive voltage peaks during low-resistance
flash) of 10 A maximum with a charge content of 100 nC.
1. With a capacitor >20 nF with good HF behaviour (e.g.
foil). This capacitance must be placed as close as
possible to pins 6 and 4, but definitely within 5 mm.
The DC voltage of VDD (pin 6) must be within the operating
range of 180 to 210 V during the peak currents.
2. With a capacitor >10 µF on the picture tube base print.
Switch-off behaviour
Flashover protection
The switch-off behaviour of the TDA6103Q is controllable.
This is due to the fact that the output pins of the
TDA6103Q are still under control of the input pins for
relative low-power supply voltages (approximately 30 V
and higher).
The TDA6103Q incorporates protection diodes against
CRT flashover discharges that clamp the cathode output
voltage up to a maximum of VDD + Vdiode. To limit the diode
current, an external 1.5 kΩ carbon high-voltage resistor in
series with the cathode output and a 2 kV spark gap are
March 1994
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Philips Semiconductors
Preliminary specification
Triple video output amplifier
TDA6103Q
Test circuit
C
par
R4
V
DD
100 kΩ
C11
100 nF
C
par
V
R5
oc1
100 kΩ
C13
6.8
pF
R7
2 MΩ
C1
C7
6
C12
3.2
pF
probe 1
1
2
22 µF
8.2 pF
R1
C14
136
pF
V
R8
100 kΩ
i1
C2
V
9
in1
1
667 Ω
22 nF
C3
0.987
mA
C8
V
oc2
TDA6103Q
22 µF
C16
6.8
pF
8.2 pF
R2
R9
2 MΩ
V
V
i2
i3
C4
V
V
8
C15
3.2
pF
in2
probe 2
2
667 Ω
22 nF
C5
C17
136
pF
0.987
mA
R10
100 kΩ
C9
22 µF
3
8.2 pF
R3
C6
V
7
in3
oc3
3
667 Ω
C19
6.8
pF
22 nF
0.987
mA
5
R11
2 MΩ
C18
3.2
pF
probe 3
4
C20
136
pF
R12
100 kΩ
C10
100
nF
C
par
1.3 V
R6
100 kΩ
MGA976
Cpar = 70 fF.
Fig.5 Test circuit with feedback factor 1⁄150.
March 1994
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Philips Semiconductors
Preliminary specification
Triple video output amplifier
TDA6103Q
MGA973
200
194
188
V
oc
100
5
0
0
1.2
0.633
0.583
1.1 1.2
∆V
i
Fig.6 Typical low-frequency (f < 1 MHz) response of ∆Vi1, 2,3 to Voc1, 2,3
.
x
V
i
0
t
x
t
s
overshoot (in %)
151
149
150
140
V
oc
100
60
50
t
t
r
MGA974
t
pd
Fig.7 Output voltage (pins 7, 8 and 9) rising edge as a function of the AC input signal.
8
March 1994
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Philips Semiconductors
Preliminary specification
Triple video output amplifier
TDA6103Q
x
V
i
0
x
t
t
s
150
140
oc
V
100
overshoot (in %)
51
60
50
49
t
t
f
MGA975
t
pd
Fig.8 Output voltage (pins 7, 8 and 9) falling edge as a function of the AC input signal.
March 1994
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X1
C3
R24
R16
1
2
3
185 V
AQUA
100 kΩ
R17
47 Ω
R5
R9
C6
R25
1.2 Ω
V
ff
10 µF
(250 V)
220 Ω
3.3 kΩ
4
R10
680 Ω
V
(GND)
100 kΩ
ff
R13
470 Ω
TDA6103Q
EHT
1
2
3
4
5
6
7
8
9
C1
X3
R6
4
3
2
1
C5
R
G
R7
R21
3.3 kΩ
100
nF
1.5 kΩ
R19
220
470 Ω
B
kR
kG
kB
R12
680 Ω
GND
A51EAL . . X02
R22
kΩ
R15
470 Ω
1.5 kΩ
R20
1.5
kΩ
C4
220 nF
R23
g1 g2 g3
1.5 kΩ
C2
C7
R4
2.7 nF
(500 V)
R8
R18
470 Ω
3.3 kΩ
100 kΩ
R11
C8
680 Ω
2.7 nF
(500 V)
optional
R26
1.5 kΩ
MGA977
R14
470 Ω
C9
1 nF
(2000 V)
V
g2
X2
AQUA
X4
Fig.9 Application diagram.
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Philips Semiconductors
Preliminary specification
Triple video output amplifier
TDA6103Q
V
GND
4
DD
6
to
from
input
circuit
differential
stage
TDA6103Q
1,2,3
(1)
7,8,9
V
bias
from
input
circuit
to
to
to
differential
stage
differential
stage
differential
stage
5
MGA971
(1) All pins have an energy protection for positive or negative overstress situations.
Fig.10 Internal pin configuration.
Dissipation
Regarding dissipation, distinction must first be made between static dissipation (independent of frequency) and dynamic
dissipation (proportional to frequency).
The static dissipation of the TDA6103Q is due to voltage supply currents and load currents in the feedback network and
CRT.
The static dissipation equals:
Pstat = VDD × IDD − 3 × Voc × (Voc/Rfb − IOC
)
Rfb = value of feedback resistor.
IOC = DC-value of cathode current.
The dynamic dissipation equals:
Pdyn = 3 × VDD × (CL + Cfb + Cint) × fi × Vo(p-p) ×δ
CL = load capacitance.
Cfb = feedback capacitance.
Cint = internal load capacitance (≈4 pF).
fi = input frequency.
Vo(p-p) = output voltage (peak-to-peak value).
δ = non-blanking duty-cycle.
The IC must be mounted on the picture tube base print to minimize the load capacitance (CL).
March 1994
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Philips Semiconductors
Preliminary specification
Triple video output amplifier
TDA6103Q
PACKAGE OUTLINE
22.00
21.35
21.4
20.7
15.1
14.9
3.85
3.45
2.75
2.50
(2x)
3.4
3.2
1.75
1.55
fin
8.7
8.0
5.9
5.7
4.4
4.2
18.5
17.8
6.48
6.14
5
1
2
3
4
6
7
8
9
1.1
0.7
0.76
3.9
3.4
0.45
0.25
0.47
0.38
1.0
0.3
1.0
0.7
2.54
(8x)
2.54
0.67
0.50
0.25
(9x)
M
1.40
1.14
o
o
65
55
1.40
1.14
MBC376 - 1
Dimensions in mm.
Fig.11 Plastic SIL-bent-to-DIL, medium power with fin, 9-pin (SOT111BE).
March 1994
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Philips Semiconductors
Preliminary specification
Triple video output amplifier
TDA6103Q
SOLDERING
Plastic single in-line packages
BY DIP OR WAVE
The maximum permissible temperature of the solder is
260 °C; this temperature must not be in contact with the
joint for more than 5 s. The total contact time of successive
solder waves must not exceed 5 s.
The device may be mounted up to the seating plane, but
the temperature of the plastic body must not exceed the
specified storage maximum. If the printed-circuit board has
been pre-heated, forced cooling may be necessary
immediately after soldering to keep the temperature within
the permissible limit.
REPAIRING SOLDERED JOINTS
Apply the soldering iron below the seating plane (or not
more than 2 mm above it). If its temperature is below
300 °C, it must not be in contact for more than 10 s; if
between 300 and 400 °C, for not more than 5 s.
DEFINITIONS
Data sheet status
Objective specification
Preliminary specification
Product specification
This data sheet contains target or goal specifications for product development.
This data sheet contains preliminary data; supplementary data may be published later.
This data sheet contains final product specifications.
Limiting values
Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). 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.
Application information
Where application information is given, it is advisory and does not form part of the specification.
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 customers using or selling these products for
use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such
improper use or sale.
March 1994
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Philips Semiconductors
Preliminary specification
Triple video output amplifier
TDA6103Q
NOTES
March 1994
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Philips Semiconductors
Preliminary specification
Triple video output amplifier
TDA6103Q
NOTES
March 1994
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New Zealand: 2 Wagener Place, C.P.O. Box 1041, AUCKLAND,
SCD29
© Philips Electronics N.V. 1994
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.
Tel. (09)849-4160, Fax. (09)849-7811
Norway: Box 1, Manglerud 0612, OSLO,
Tel. (22)74 8000, Fax. (22)74 8341
Printed in The Netherlands
9397 730 00011
Philips Semiconductors
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