MITSUMI MM1140

MITSUMI
6-Input 1-Output Video Switch MM1140
6-Input 1-Output Video Switch
Monolithic IC MM1140
Outline
This is a 6-input, 1-output high performance video switch for TV/BS signal switching. It is ideal for use when
multiple input circuits are needed on 1 chip.
Features
1.
2.
3.
4.
Built-in mute function (mute pin : input possible)
Crosstalk
-70dB (at 4.43MHz)
Power supply voltage
5~13V
Frequency response
10MHz
Package
SOP-14B (MM1140XF)
Applications
1. TV
2. VCR
3. Other video equipment
Block Diagram
6-Input 1-Output Video Switch MM1140
MITSUMI
Pin Description
Pin no. Pin name
1
IN1
2
SW1
3
IN2
4
SW2
5
IN3
6
GND
7
OUT
Internal equivalent circuit diagram Pin no. Pin name
8
SW5
9
MUTE
10
SW3
11
IN4
12
SW4
13
IN5
14
VCC
Internal equivalent circuit diagram
6-Input 1-Output Video Switch MM1140
MITSUMI
Absolute Maximum Ratings
(Ta=25°C)
Item
Symbol
Ratings
Units
Storage temperature
TSTG
-40~+125
°C
Operating temperature
TOPR
-20~+75
°C
Power supply voltage
VCC
15
V
Allowable loss
Pd
350
mW
Electrical Characteristics
(Except where noted otherwise, Ta=25°C, VCC=5.0V)
Item
Symbol
Measurement conditions
Operating power supply voltage range
VCC
Consumption current
Id
Refer to Measuring Circuit
Voltage gain
GV
Refer to Measuring Circuit
Frequency characteristic
FC
Refer to Measuring Circuit
Differential gain
DG
Differential phase
Min. Typ. Max. Units
5.0
13.0
V
9.0
13.0
mA
-0.5
0
+0.5
dB
-1
0
+1
dB
Refer to Measuring Circuit
0
±3
%
DP
Refer to Measuring Circuit
0
±3
deg
Crosstalk
CT
Refer to Measuring Circuit
-70
-60
dB
Total harmonic distortion
THD
Refer to Measuring Circuit
0.01
0.3
%
Output offset voltage
Voff
Refer to Measuring Circuit
±30
mV
H
VIH
Refer to Measuring Circuit
L
VIL
Refer to Measuring Circuit
Switch input voltage
4.75
2.1
V
0.7
V
Input impedance
Ri
15
kΩ
Output impedance
Ro
25
Ω
6-Input 1-Output Video Switch MM1140
MITSUMI
Measuring Procedures
Item
Symbol
Consumption current
Id
(Except where noted otherwise, VCC=5.0V, VC1=VCC, VC2=0V)
Switch
Measuring Procedure
state
1
Connect a DC ammeter to the VCC pin and measure. VCC is 5V and
the ammeter is shorted for use in subsequent measurements.
Input a 2.0VP-P, 100kHz sine wave to SG, and obtain GV from the
GV
Voltage gain
2
following formula given TP12 voltage as V1 and TP14 voltage as V2.
GV=20LOG (V2/V1) dB
For the above GV measurement, given TP14 voltage for 10MHz as
Frequency
FC
characteristic
2
V3, FC is obtained from the following formula.
FC=20LOG (V3/V2) dB
Differential gain
DG
2
Differential phase
DP
2
THD
2
Voff
3
Total harmonic
distortion
Output offset voltage
Input a 2.0VP-P staircase wave to SG, and measure differential gain at TP14.
APL=10~90%
Proceed as for DG, and measure differential phase.
Input a 2.5VP-P, 1kHz sine wave to SG, connect a distortion meter to
TP14 and measure.
Measure the DC voltage difference of each switch status at TP13.
Assume VC1=2.1V, VC2=0.7V.
CT
Crosstalk
9
Input a 2.0VP-P, 4.43MHz sine wave to SG, and given TP12 voltage as V4
and TP14 voltage as V5, CT is obtained from the following formula.
CT=20LOG (V5/V4) dB
Switch 1
input voltage
Switch 2
input voltage
Switch 3
input voltage
Switch 4
input voltage
Switch 5
input voltage
H
Impress different optional DC voltages on TP6 and TP7. Gradually
VIH1
4
L
VIL1
H
VIH2
VIL2
H
VIH3
Impress different optional DC voltages on TP6 and TP8. Gradually
VIL3
H
VIH4
VIL4
H
VIH5
VIL5
raise from VC3=0V. TP3 voltage when TP9 voltage is output on TP13
is VIH3. Gradually lower from VC3=VCC. TP3 voltage when TP6
voltage is output on TP13 is VIL3.
Impress different optional DC voltages on TP9 and TP10. Gradually
raise from VC3=0V. TP4 voltage when TP10 voltage is output on
TP13 is VIH4. Gradually lower from VC3=VCC. TP4 voltage when TP9
voltage is output on TP13 is VIL4.
Impress different optional DC voltages on TP6 and TP11. Gradually
8
L
is VIH2. Gradually lower from VC3=VCC. TP2 voltage when TP6
Impress different optional DC voltages on TP6 and TP9. Gradually
7
L
raise from VC3=0V. TP2 voltage when TP8 voltage is output on TP13
voltage is output on TP13 is VIL2.
6
L
is VIH1. Gradually lower from VC3=VCC. TP1 voltage when TP6
voltage is output on TP13 is VIL1.
5
L
raise from VC3=0V. TP1 voltage when TP7 voltage is output on TP13
raise from VC3=0V. TP5 voltage when TP11 voltage is output on
TP13 is VIH5. Gradually lower from VC3=VCC. TP5 voltage when TP6
voltage is output on TP13 is VIL5.
6-Input 1-Output Video Switch MM1140
MITSUMI
Switch Conditions Table
SW
Conditions
Control switching
Input switching
S1
S2
S3
S4
S5
S6
S7
S8
S9
S10
S11
1
0
0
0
0
0
0
0
0
0
0
0
2
0
0
0
0
0
1
0
0
0
0
0
1
0
0
0
0
0
1
0
0
0
0
1
1
0
0
0
0
0
1
0
0
0
1
1
1
0
0
0
0
0
1
0
0
1
1
1
1
0
0
0
0
0
1
0
1
1
1
1
1
0
0
0
0
0
1
0
0
0
0
0
0
Conditions 2
3
4
2
0
0
0
0
0
0
0
0
0
0
5
0
2
0
0
0
0
0
0
0
0
0
6
0
0
2
0
0
0
0
0
0
0
0
7
0
0
1
2
0
0
0
0
0
0
0
8
0
0
0
0
2
0
0
0
0
0
0
9
Combination of all control switching and input switching when no signal is output to TP14.
Control Input-Output Table
SW
OUT
1
2
3
4
5
L
L
L
-
L
IN1
H
L
L
-
L
IN2
-
H
L
-
L
IN3
-
-
H
L
L
IN4
-
-
H
H
L
IN5
-
-
-
-
H
MUTE
MITSUMI
Measuring Circuit
6-Input 1-Output Video Switch MM1140