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TEA5116
5 CHANNELS VIDEO SWITCH
.EACH CHANNEL EXCEPT FAST BLANKING
HAS 6dB GAIN.R,G,B AND VIDEO SIGNALS ARE CLAMPED THESAMEREFERENCE VOLTAGEIN OR-
DER TO HAVE NO OUTPUT DIFFERENTIAL
VOLTAGEWHEN SWITCHING.ALL INPUT LEVELS COMPATIBLE WITH NFC
92250AND EN 50049 NORMS.30MHz BAND WIDTH FORR,G,B SIGNALS.INTERNAL 6.7V SHUNT REGULATOR FOR: LOW IMPEDANCE LOADS, POWER DISSIPATION LIMITATION.THE FIVE CHANNELS ARE SIMULTANE-
OUSLY SWITCHED BY ONLY ONE SELECT
INPUT
SYNCHROSIGNAL INPUT2
GREEN SIGNAL INPUT2
”C” SELECT INPUT
GREEN SIGNAL OUTPUT
GROUND
BLUE SIGNAL OUTPUT
SHUNT REGULATOR SUPPLY INPUT
BLUE SIGNAL INPUT2
GREEN SIGNAL INPUT1
SYNCHRO SIGNAL INPUT1
RED SIGNAL INPUT2
SYNCHRO SIGNAL OUTPUT
RED SIGNAL OUTPUT
FAST BLANKING OUTPUT
RED SIGNAL INPUT1
BLUE SIGNAL INPUT1FAST BLANKING INPUT2
FAST BLANKING INPUT1
5116-01.EPS
PIN CONNECTIONS
DIP18(Plastic Package)
ORDER CODE: TEA5116
May 1996
TEA5116 CHANNELS VIDEO SWITCH
1/8
SHUNT
REGULATOR
FB2
FB1CC (12V)PS
RPS
TEA51165116-02.EPS
BLOCK DIAGRAM
ABSOLUTE MAXIMUM RATINGS
Symbol Parameter Value UnitICC Supply Current (see note) 150 mA
Vin Input Voltage(all inputs) – 0.5to VCC+ 0.5 V
Toper Operating Temperature Range 0,70 °C Junction Temperature – 40,+ 150 °C
Tstg Storage Temperature – 40,+ 150 °C
Note: Minimum output loadis 300 Ωin caseofall outputs loaded.
5116-01.TBL
THERMAL DATA
Symbol Parameter Value UnitRth(j-a) Junction-ambient Thermal Resistance 70 °C/W
5116-02.TBL
TEA51162/8
ELECTRICAL CHARACTERISTICSTamb =+25 °C, ICC= 120 mA; Load value= 150Ω
(sequentially switched) (unless otherwise specified, referto test circuit page7)
Symbol Parameter Min. Typ. Max. UnitVCC Internal Shunt Regulator ICC= 120 mA
ICC =90 mA
ICC= 150 mA
6.7 7.2
7.3
G,B Switches (pins4,6, 14) (Time Measurement Conditions:Δ inputs RGB= 0.7 Vpp; pulse amplitude=3V) DC Output Voltage Tjunction =25°C
(no input voltage) Tjunction stabilized
1.25 V
VAC Max Output Swing Voltage 2 4 Vpp Bandwidth(– 3dB) (input voltage 0.7Vpp) 20 30 MHz Gainof Each Channel (input voltage 0.7Vpp;f= 1MHz) 5.5 6 6.5 dB
Adc Gain Difference between any twoR, G,B Channels
(input voltage 0.7Vpp;f= 1MHz)
0.1 0.5 dB
Input Swing 0.7V±
3dB
zic DC Input Impedance 10 kΩ
zoc Dynamic Output Impedance (input voltage 0.7 Vpp;= 1MHz) with Rload= 300Ω Ω
Crosstalk between any inputs (R1 andR2orB1 andB2orG1
and G2) (input voltage 0.7Vpp;f= 1MHz). 55 dB
Crosstalk between any outputs (input voltage 0.7Vpp;= 1MHz) 55 dB
tdc Delay time betweenR, G,B inputs and RGB outputs. 10 ns
tsr1 Switching Rise Time between FB1 Input Signal andR, G,B
Output Signal (input signalon RGB1) ns
tsf1 Switching Fall Time between FB1 Input Signal andR, G,B
Output Signal (input signalon RGB1) ns
tsr2 Switching Rise Time between FB2 Input Signal andR, G,B
Output Signal (input signalon RGB2) ns
tsf2 Switching Fall Time between FB2 Input Signal andR, G,B
Output Signal (input signalon RGB2) ns
Fast Blanking Switch (pin 13)
(time measurement conditions:FB input pulse amplitude=2V,C pulse amplitude= 3V))
VIL
VIH
VOL
VOH
Low Level Input Voltage
High Level Input Voltage
Low Level Output Voltage
High Level Output Voltage Tjunction =25oC
Tjunction stabilized 0.5
VCC+0.5
VCC+0.5
Dynamic Output Impedance: with Rload= 300Ω 10 Ω
tFB1r Delay Rise Time between FB1 Input andFB Output 60 110 ns
tFB1f Delay Fall Time between FB1 Input andFB Output 40 60 ns
tFB2r Delay Rise Time between FB2 Input andFB Output 60 ns
tFB2f Delay Fall Time between FB2 input andFB Output 40 ns
tSFB1r Switching Rise Time betweenC Input andFB Output
(input signalon FB1 input) ns
tSFB1f Switching Fall Time betweenC Input andFB Output
(input signalon FB1 input) ns
tSFB2r Switching Rise Time betweenC Input andFB Output
(input signalon FB2 input) ns
tSFB2f Switching Fall Time betweenC Input andFB Output
(input signalon FB2 input) ns
5116-03.TBL
TEA51163/8
ELECTRICAL CHARACTERISTICS (continued)
Symbol Parameter Min. Typ. Max. Unit
Video(or synchro)
Signal Switch (pin 15)- time measurement conditions:(C pulse amplitude= 3V)
Vas
Zic
Zcc Output Voltage (no input voltage)
Tjunction =25oC
Tjunction stabilized
Max Output Swing Voltage Input Impedance
Dynamic Output Impedance (input voltage 1Vpp;f= 1MHz)
with Rload= 300Ω
Gain (input voltage1 Vpp;f= 1MHz)
Bandwidth(–3 dB) (input voltage1 Vpp)
Vpp
MHz
Input Swing 1V± 3dB
tdc Delay Time betweenS Input andS Output(Δ input: 0.7VPP)10 ns
tsr1 Switching rise time betweenC input signal andS output
signal (input signalon S1) ns
tsf1 Switchingfall time betweenC input signal andS output
signal (input signalon S1) ns
tsr2 Switching Rise time betweenC input signal andS output
signal (input signalon S2)
tsf2 Switchingfall time betweenC input signal andS output
signal (input signalon S2)
Select Input ”C” (pin3)
VIL
VIH
IIL
IIH
Low Level Input Voltage
High Level Input Voltage
Low Level Input Current (VIL =1V)
High Level Input Current (VIH =3V) 0.5 0.6
VCC+0.5 0.1
5116-04.TBL
tdc
RGBS1
RGBS2
FB1
FB2
OUTPUTSRGBS FB2r FB2f tt FB1fFB1rt
INPUTS5116-03.EPS
TEA51164/8
INPUTSRGBS1
RGBS
FB1
OUTPUTSsr1 SFB1r t SFB1f
sf1t
5116-04.EPS
RGBS2=0, FB2=0
INPUTSRGBS2
RGBS
FB2
OUTPUTStsr2
tSFB2r
sf2t SFB2f
5116-05.EPS
RGBS1=0, FB1=0
TEA51165/8
100nF
1μF
47nF
150Ω
VOLTMETER
TIMEMEASUREMENTAMPLIFIER
(BANDWIDTHCROSS-TALK)
CURRENTSOURCE120mA
FB1
FB2
GND
VCC
CLOCK
GENERATOR(TIME
MEASUREMENT)
DYNAMICSOURCE
STATICSOURCE
STATICSOURCE
5116-06.EPS
TEST CIRCUIT
INPUTS/OUTPUTS EQUIVALENT INTERNAL DIAGRAMS = 6.7VCC
Pins9-11
5116-08.EPS inputs (pins9, 11)
Internal = 6.7VCCREFV=3V
5116-07.EPSG,B,S inputs (pins1,2,8, 10, 12, 16, 17, 18) = 6.7VCC
10kΩ
10kΩ
5116-09.EPS input (pin3) = 6.7VCC= 600μA
5116-10.EPS
All Outputs(pins4,6, 13, 14, 15)
TEA51166/8
