Mitsumi MM1504 Video switch â· 75â ¦ driver â· y/c mix Datasheet

Video Switch · 75Ω driver · Y/C mix MM1501
MITSUMI
Video Switch · 75Ω driver · Y/C mix
Monolithic IC MM1501 Series
Outline
This IC extends the series of ICs for video/audio signal switching, with a 2-input 1-output single video switch,
video signal/chroma signal 75Ω driver, and Y/C mixing circuit in one small package (SOT-26).
Features
(1) Low power consumption achieved.
(2) Low power supply voltage realized.
(3) Frequency bandwidth
without 75Ω driver: 10MHz
(4) Cross talk 70dB When 4.43MHz
(5) With SAG measures pin (75Ω driver and Y/C mix driver)
with 75Ω driver: 7MHz
Package
SOT-26A (with 75Ω driver)
SOT-26B (without 75Ω driver)
Applications
(1) TV
(2) VTR
(3) Video camera
(4) Digital still camera
(5) Other visual equipment
Line-up
Functions
Switch
Driver
Y/C mix
Model Name Input Output
MM1501
MM1502
MM1503
MM1504
MM1505
MM1506
MM1507
MM1508
MM1509
MM1510
MM1511
MM1512
2
1
1
1
1
1
Clamp
/
/
6dB amp
75Ω driver
SAG measures pin
Power supply
voltage
4.5~13.0V
4.5~13.0V
4.5~13.0V
4.5~13.0V
4.5~13.0V
4.5~13.0V
4.5~13.0V
4.5~13.0V
4.5~13.0V
4.5~13.0V
4.5~13.0V
4.5~13.0V
MITSUMI
Video Switch · 75Ω driver · Y/C mix MM1501
Block Diagram
MM1501
MM1502
MM1503
MM1504
MM1505
MM1506
MITSUMI
Video Switch · 75Ω driver · Y/C mix MM1501
MM1507
MM1508
MM1509
MM1510
MM1511
MM1512
Video Switch · 75Ω driver · Y/C mix MM1501
MITSUMI
Absolute Maximum Ratings (Ta=25°C)
Item
Storage temperature
Operating temperature
Power supply voltage
When alone
Allowable loss
When mounted on board
Symbol
TSTG
TOPR
VCC
Pd
Pd
Rating
Unit
-40~+125
°C
-30~+75
°C
15
V
200
mW
350 ( )
mW
Board size 100mm 100mm t=1.6
*
*
Recommended Operating Conditions
Item
Power supply voltage
Electrical Characteristics
Symbol
VCC
Rating
4.5~13
Unit
V
(Except where noted otherwise, Ta=25°C, VCC=5V)
MM1501
Item
Consumption current
Input pin voltage
Output pin voltage
Voltage gain
Frequency characteristic
Differential gain
VCC=9V
Differential phase VCC=9V
Total harmonic distortion ratio
Output dynamic range
Output offset voltage
Cross talk
SW input voltage H
SW input voltage L
Input impedance
Output impedance
Symbol
ICC
VIN
VOUT
GV
fc
DG
DP
THD
VD
VOFF
CT
VIH
VIL
Zi
Zo
Measurement conditions
Refer to measurement procedures
No-signal, no-load
No-signal, no-load
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Min. Typ. Max. Unit
3.7
4.8 mA
2.70 2.90 3.10
V
2.15
V
-0.5
0
+0.5 dB
-1
0
+1
dB
-3
0
+3
%
-3
0
+3
deg
0.03 0.3
%
3.5
3.8
V
±15 mV
-70 -60
dB
2.1
V
0.7
V
15
kΩ
75
Ω
Symbol
ICC
VIN
VOUT
GV
fc
DG
DP
THD
VD
VOFF
CT
VIH
VIL
Zi
Zo
Measurement conditions
Refer to measurement procedures
No-signal, no-load
No-signal, no-load
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Min. Typ. Max. Unit
4.7
6.1 mA
1.70 1.90 2.10
V
2.10
V
5.5
6.0
6.5
dB
-1
0
+1
dB
-3
0
+3
%
-3
0
+3
deg
0.03 0.3
%
3.5
3.8
V
±30 mV
-70 -60
dB
2.1
V
0.7
V
15
kΩ
12
Ω
MM1502
Item
Consumption current
Input pin voltage
Output pin voltage
Voltage gain
Frequency characteristic
Differential gain
VCC=9V
Differential phase VCC=9V
Total harmonic distortion ratio
Output dynamic range
Output offset voltage
Cross talk
SW input voltage H
Sw input voltage L
Input impedance
Output impedance
Video Switch · 75Ω driver · Y/C mix MM1501
MITSUMI
MM1503
Item
Consumption current
Input pin voltage
Output pin voltage
Voltage gain
Frequency characteristic
Differential gain
Differential phase
Total harmonic distortion ratio
Output dynamic range
Output offset voltage
Cross talk
SW input voltage H
SW input voltage L
Input impedance
Symbol
ICC
VIN
VOUT
GV
fc
DG
DP
THD
VD
VOFF
CT
VIH
VIL
Zo
Measurement conditions
Refer to measurement procedures
No-signal, no-load
No-signal, no-load
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Min. Typ. Max. Unit
3.3
4.3 mA
1.80 2.00 2.20
V
1.25
V
-0.5
0
+0.5 dB
-1
0
+1
dB
-3
0
+3
%
-3
0
+3
deg
0.03 0.3
%
2.6
2.9
V
±15 mV
-70 -60
dB
2.1
V
0.7
V
75
Ω
Symbol
ICC
VIN
VOUT
GV
fc
DG
DP
THD
VD
VOFF
CT
VIH
VIL
Zo
Measurement conditions
Refer to measurement procedures
No-signal, no-load
No-signal, no-load
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Min. Typ. Max. Unit
4.4
5.7 mA
1.20 1.40 1.60
V
1.25
V
5.5
6.0
6.5
dB
-1
0
+1
dB
-3
0
+3
%
-3
0
+3
deg
0.03 0.3
%
2.6
2.9
V
±30 mV
-70 -60
dB
2.1
V
0.7
V
12
Ω
Symbol
ICC
VIN
VOUT
GV
fc
DG
DP
VD
VOFF
CT
VIH
VIL
Zi
Measurement conditions
Refer to measurement procedures
No-signal, no-load
No-signal, no-load
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Min. Typ. Max. Unit
6.5
8.5 mA
2.35 2.55 2.75
V
2.55
V
-0.5 0.0
0.5
dB
-1
0
+1
dB
-3
0
+3
%
-3
0
+3
deg
2.6
3.0
V
±15 mV
-70 -60
dB
2.1
V
0.7
V
15
kΩ
MM1504
Item
Consumption current
Input pin voltage
Output pin voltage
Voltage gain
Frequency characteristic
Differential gain
Differential phase
Total harmonic distortion ratio
Output dynamic range
Output offset voltage
Cross talk
SW input voltage H
SW input voltage L
Input impedance
MM1505
Item
Consumption current
Input pin voltage
Output pin voltage
Voltage gain
Frequency characteristic
Differential gain
VCC=9V
Differential phase VCC=9V
Output dynamic range
Output offset voltage
Cross talk
SW input voltage H
SW input voltage L
Input impedance
Video Switch · 75Ω driver · Y/C mix MM1501
MITSUMI
MM1506
Item
Consumption current
Input pin voltage
Output pin voltage
Voltage gain
Frequency characteristic
Differential gain
VCC=9V
Differential phase VCC=9V
Output dynamic range
Output offset voltage
Cross talk
SW input voltage H
SW input voltage L
Input impedance
Symbol
ICC
VIN
VOUT
GV
fc
DG
DP
VD
VOFF
CT
VIH
VIL
Zi
Measurement conditions
Refer to measurement procedures
No-signal, no-load
No-signal, no-load
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Min. Typ. Max. Unit
6.8
8.8 mA
1.75 1.95 2.15
V
2.35
V
5.5
6.0
6.5
dB
-1
0
+1
dB
-3
0
+3
%
-3
0
+3
deg
3.0
3.3
V
±30 mV
-70 -60
dB
2.1
V
0.7
V
15
kΩ
Symbol
ICC
VIN
VOUT
GV
fc
DG
DP
VD
VOFF
CT
VIH
VIL
Measurement conditions
Refer to measurement procedures
No-signal, no-load
No-signal, no-load
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Min. Typ. Max. Unit
6.4
8.3 mA
1.15 1.35 1.55
V
1.35
V
-0.5
0
+0.5 dB
-1
0
+1
dB
0
+3
%
-3
-3
0
+3
deg
2.6
2.9
V
±15 mV
-70 -60
dB
2.1
V
0.7
V
Symbol
ICC
VIN
VOUT
GV
fc
DG
DP
VD
VOFF
CT
VIH
VIL
Measurement conditions
Refer to measurement procedures
No-signal, no-load
No-signal, no-load
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Min. Typ. Max. Unit
6.8
8.8 mA
1.15 1.35 1.55
V
1.30
V
5.5
6.0
6.5
dB
-1
0
+1
dB
-3
0
+3
%
-3
0
+3
deg
2.6
3.0
V
±30 mV
-70 -60
dB
2.1
V
0.7
V
MM1507
Item
Consumption current
Input pin voltage
Output pin voltage
Voltage gain
Frequency characteristic
Differential gain
Differential phase
Output dynamic range
Output offset voltage
Cross talk
SW input voltage H
SW input voltage L
MM1508
Item
Consumption current
Input pin voltage
Output pin voltage
Voltage gain
Frequency characteristic
Differential gain
Differential phase
Output dynamic range
Output offset voltage
Cross talk
SW input voltage H
SW input voltage L
Video Switch · 75Ω driver · Y/C mix MM1501
MITSUMI
MM1509
Item
Consumption current
Current consumption for PS
PS input voltage L
PS input voltage H
Input pin voltage
Output pin voltage
Voltage gain
Frequency characteristic
Differential gain
VCC=9V
Differential phase VCC=9V
Output dynamic range
Input impedance
Symbol
ICC1
ICC2
VPSL
VPSH
VIN
VOUT
GV
fc
DG
DP
VD
Zi
Measurement conditions
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
No-signal, no-load
No-signal, no-load
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Min. Typ. Max. Unit
6.3
8.2 mA
20
30
µA
0.3
V
1.8
V
1.75 1.95 2.15
V
2.35
V
5.5
6.0
6.5
dB
-1
0
+1
dB
-3
0
+3
%
-3
0
+3
deg
2.9
3.2
V
15
kΩ
Symbol
ICC1
ICC2
VPSL
VPSH
VIN
VOUT
GV
fc
DG
DP
VD
Measurement conditions
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
No-signal, no-load
No-signal, no-load
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Min. Typ. Max. Unit
6.4
8.3 mA
20
30
µA
0.3
V
1.8
V
1.15 1.35 1.55
V
1.15
V
5.5
6.0
6.5
dB
-1
0
+1
dB
-3
0
+3
%
-3
0
+3
deg
2.6
3.0
V
Symbol
ICC
VYIN
VCIN
VOUT
GV
fc
DG
DP
VDY
VDC
Zi
Zo
Measurement conditions
Refer to measurement procedures
No-signal, no-load
No-signal, no-load
No-signal, no-load
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Min. Typ. Max. Unit
4.4
5.7 mA
2.00 2.20 2.40
V
1.85 2.05 2.25
V
1.15
V
-0.5
0
6.5
dB
-1
0
+0.5 dB
-3
0
+3
%
-3
0
+3
deg
2.6
2.9
V
2.0
V
15
kΩ
25
Ω
MM1510
Item
Consumption current
Current consumption for PS
PS input voltage L
PS input voltage H
Input pin voltage
Output pin voltage
Voltage gain
Frequency characteristic
Differential gain
Differential phase
Output dynamic range
MM1511
Item
Consumption current
Y input pin voltage
C input pin voltage
Output pin voltage
Voltage gain
Frequency characteristic
Differential gain
Differential phase
Y output dynamic range
C output dynamic range
C input impedance
Output impedance
Video Switch · 75Ω driver · Y/C mix MM1501
MITSUMI
MM1512
Item
Consumption current
Y input pin voltage
C input pin voltage
Output pin voltage
Voltage gain
Frequency characteristic
Differential gain
Differential phase
Y output dynamic range
C output dynamic range
C input impedance
Symbol
ICC
VYIN
VCIN
VOUT
GV
fc
DG
DP
VDY
VDC
Zi
Measurement conditions
Refer to measurement procedures
No-signal, no-load
No-signal, no-load
No-signal, no-load
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Refer to measurement procedures
Min. Typ. Max. Unit
6.9
9.0 mA
1.95 2.15 2.35
V
1.80 2.00 2.20
V
1.10
V
5.5
6.0
6.5
dB
-1
0
+1
dB
-3
0
+3
%
-3
0
+3
deg
2.6
2.9
V
2.0
V
15
kΩ
Measurement Procedures
MM1501~MM1508
· Switch Status
Item
Symbol
Consumption current
ICC
Voltage gain
GV
Frequency characteristic
Differential gain
Differential phase
fc
DG
DP
Switch status
S1
S2
S3
2
2
2
1
2
2
2
1
1
1
2
2
2
1
1
1
2
2
2
1
1
1
2
2
2
1
1
Item
Symbol
Total harmonic
distortion ratio
THD
Output dynamic range
VD
Output offset voltage
VOFF
Cross talk
CT
SW input voltage H
SW input voltage L
VIH
VIL
Switch status
S1
S2
S3
1
2
2
2
1
1
1
2
2
2
1
1
2
2
2
2
2
1
1
2
1
2
1
2
2
2
1
Video Switch · 75Ω driver · Y/C mix MM1501
MITSUMI
·Measurement Procedures (MM1501 ~ MM1504)
Consumption current
ICC
Voltage gain
GV
Frequency characteristic
fc
Differential gain
DG
Differential phase
DP
Total harmonic distortion ratio
THD
Output dynamic range
VD
Output offset voltage
VOFF
Cross talk
CT
SW input voltage
VI
Connect a DC ammeter to VCC pin and measure. Hereafter, short
the ammeter to use.
Input a 2.0VP-P (1.0VP-P for MM1502 and MM1504), 100kHz sine
wave to SG1. If TP1 voltage is V1 and TP3 voltage is V2, find Gv
using the following formula:
GV = 20LOG (V2/V1) dB
In the above Gv measurement, if TP3 voltage at 10MHz is V3, find
fc as follows:
fc = 20LOG (V3/V2) dB
Input a 2.0VP-P (1.0VP-P for MM1502 and MM1504) staircase to SG1
and measure differential gain at TP3.
APL = 10 ~ 90%
The same as for DG, but measure differential phase.
Input a 2.5VP-P (1.25VP-P for MM1502, MM1504), 1kHz sine wave to
SG1, connect a distortion factor meter to TP3 and measure.
Input a 100kHz sine wave to SG1. Change the amplitude of the sine
wave, and measure VD, the maximum amplitude under THD 1%, at
TP3.
Measure the DC voltage difference of each switch status at TP2.
VC1 = 2.1V and VC2 = 0.7V. Input a 2.0VP-P, 4.43MHz sine wave to
SG1, and operate SW3. If TP3 voltage when there is an output
signal on the OUT pin is V4, and when there is no signal TP3
voltage is V5, then find CT by the following formula:
CT = 20LOG (V5/V4) dB
Impress an optional DC voltage on TP5 and TP6. Gradually
increase from VC1 = 0V. When TP6 voltage is output on TP2, TP4
voltage is VIH. Gradually lower from VC1 = VCC, and when TP5
voltage is output on TP2, TP4 voltage is VIL.
Video Switch · 75Ω driver · Y/C mix MM1501
MITSUMI
· Measurement Procedures (MM1505 ~ MM1508)
Consumption current
ICC
Voltage gain
GV
Frequency characteristic
fc
Differential gain
DG
Differential phase
DP
Output dynamic range
VD
Output offset voltage
VOFF
Cross talk
CT
SW input voltage
VI
Connect a DC ammeter to VCC pin and measure. Hereafter, short
the ammeter to use.
Input a 2.0VP-P(1.0VP-P for MM1506 and MM1508), 100kHz sine
wave to SG1. If TP1 voltage is V1 and TP3 voltage is V2, find GV
using the following formula:
GV = 20LOG (V2/V1) dB
In the above GV measurement, if TP3 voltage at 7MHz is V3, find fc
as follows:
fc = 20LOG (V3/V2) dB
Input a 2.0VP-P (1.0VP-P for MM1506 and MM1508) staircase to SG1
and measure differential gain at TP3.
APL = 10 ~ 90%
The same as for DG, but measure differential phase.
Input a 100kHz sine wave to SG1. Change the amplitude of the sine
wave, and measure VD, the maximum amplitude under THD 1%, at TP3.
Measure the DC voltage difference of each switch status at TP2.
VC1 = 2.1V and VC2 = 0.7V. Input a 2.0VP-P, 4.43MHz sine wave to
SG1, and operate SW3. IF TP3 voltage when there is an output
signal on the OUT pin is V4, and when there is no signal TP3
voltage is V5, then find CT by the following formula:
CT = 20LOG (V5/V4) dB
Impress an optional DC voltage on TP6 and TP7. Gradually
increase from VC1 = 0V. When TP7 voltage is output on TP2, TP5
voltage is VIH. Gradually lower from VC1 = VCC, and when TP6
voltage is output on TP2, TP5 voltage is VIL.
MM1509 ~ MM1510
· Switch Status
Item
Symbol
Consumption current
Consumption current for PS
PS input voltage L
PS input voltage H
Voltage gain
ICC1
ICC2
VIL
VIH
GV
Switch status
S1
S2
2
1
2
3
2
2
1
1
Item
Symbol
Frequency characteristic
Differential gain
Differential phase
Output dynamic range
fc
DG
DP
VD
Switch status
S1
S2
1
1
1
1
1
1
1
1
· Measurement Procedures
Consumption current
Consumption current for PS
ICC1
ICC2
PS input voltage
VI
Voltage gain
GV
Frequency characteristic
fc
Differential gain
DG
Differential phase
DP
Output dynamic range
VD
Connect a DC ammeter to the VCC pin and measure.
Connect a DC ammeter to the VCC pin and measure.
Connect a DC ammeter to the VCC pin. Gradually lower from VC1 =
VCC. VC1 voltage when consumption current is reduced from ICC1 to
110% of ICC2 is VIL. Gradually raise from VC1 = 0V. VC1 voltage
when consumption current increases from ICC2 to 90% of ICC1 is VIH.
From here on, short the ammeter when using it.
Input a 1.0VP-P, 100kHz sine wave to SG1. If TP1 voltage is V1 and
TP2 voltage is V2, find GV by the following formula:
GV = 20LOG (V2/V1) dB
In the above GV measurement, if TP2 voltage at 7MHz is V3, find fc
by the following formula.
fc = 20LOG (V3/V2) dB
Input a 1.0VP-P staircase to SG1 and measure differential gain at
TP2.
APL = 10 ~ 90%
The same as for DG, but measure differential phase.
Input a 100kHz sine wave to SG1. Measure DR, the maximum
amplitude under THD 1%, at TP2.
Video Switch · 75Ω driver · Y/C mix MM1501
MITSUMI
MM1511 ~ MM1512
· Switch Status
Item
Symbol
Consumption current
ICC
Voltage gain
GV
Frequency characteristic
fc
Switch status
S1
S2
2
2
1
2
2
1
1
2
2
1
Item
Symbol
Differential gain
Differential phase
Y output dynamic range
C output dynamic range
DG
DP
VDY
VDC
Switch status
S1
S2
3
1
3
1
2
1
3
1
· Measurement Procedures
Consumption current
ICC1
Voltage gain
GV
Frequency characteristic
fc
Differential gain
DG
Differential phase
DP
Y output dynamic range
VDY
C output dynamic range
VDC
Connect a DC ammeter to the VCC pin and measure. Hereafter,
short the ammeter to use.
Input a 2.0VP-P (1.0VP-P for MM1512), 100kHz sine wave to SG1. If TP1
voltage is V1 and TP2 voltage is V2, find GV by the following formula:
GV = 20LOG (V2/V1) dB
In the above GV measurement, if TP2 voltage at 10MHz (7MHz for
MM1512) is V3, find fc by the following formula.
fc = 20LOG (V3/V2) dB
Input a 2.0VP-P (1.0VP-P for MM1512) to SG1, input a chroma signal
to SG2, and measure differential gain at TP2.
APL = 10 ~ 90%
The same as for DG, but measure differential phase.
Input a 100kHz sine wave to SG1. Measure VDY, the maximum
amplitude under THD 1%, at TP2.
Input an APL 50% luminance signal to SG1 and input a chroma
signal to SG2. Change the chroma signal amplitude and measure
VDC, the maximum amplitude where there is no waveform
distortion at TP2.
MITSUMI
Video Switch · 75Ω driver · Y/C mix MM1501
Measuring Circuit
MM1501
MM1502
MM1503
MM1504
MITSUMI
Video Switch · 75Ω driver · Y/C mix MM1501
MM1505
MM1506
MM1507
MM1508
MITSUMI
Video Switch · 75Ω driver · Y/C mix MM1501
MM1509
MM1510
MM1511
MM1512
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