MITSUBISHI M65530FP

MITSUBISHI ICs (AV COMMON)
M65530FP
TRIPLE 10-BIT VIDEO D-A CONVERTER
DESCRIPTION
The M65530FP is a CMOS 10-bit digital-to-analog
converter for video signal processing. The IC features an
adjustment function of analog output amplitude, thereby controlling
the amplitude by simply changing an adjustment resistor.
FEATURE
•
•
•
•
•
•
Triple 10-bit video speed D-A converters
Maximum conversion rate of 50 MSPS
Adjustable analog output amplitude...............................2.0V(Typ)
Digital input....................................................................TTL level
Power down function for analog blocks
Surface mounting package
(68-pin quad flat package, 0.65mm line and space,
14 x 10 mm body)
APPLICATIONS
TV, VCR, etc.
RECOMMENDED OPERATING CONDITION
Supply voltage range.................................................4.75 to 5.25 V
Rated supply voltage...............................................................5.0 V
PIN CONFIGURATION (TOP VIEW)
VZ
55
34
N.C
IOUTR
56
33
CEB
IOUTRB 57
32
BLK
AVDD
58
31
B9
AVDD
59
30
B8
IOUTG
60
29
B7
IOUTGB 61
28
B6
M65530FP
AVDD
62
27
B5
AVDD
63
26
B4
IOUTB
64
25
B3
IOUTBB 65
24
B2
AVDD
66
23
B1
AVDD
67
22
B0(LSB)
DVDD
68
21
G9
Outline 68P6S-A
NC:NO CONNECTION
1
MITSUBISHI ICs (AV COMMON)
M65530FP
TRIPLE 10-BIT VIDEO D-A CONVERTER
BLOCK DIAGRAM
67
66
DVDD
AVDD
AVDD
56
57
IOUTR
IOUTRB
49
68
R0(LSB)
R1
R2
R3
R4
R5
R6
R7
R8
R9
G0(LSB)
G1
G2
G3
G4
G5
G6
G7
G8
G9
1
2
5
6
LATCH
&
DECODER
7
8
CLOCK DRIVER
9
REFERENCE
CURRENT SOURCE
10
11
12
14
15
16
22
BLK
32
CEB
DVSS
33
N.C
N.C
20
26
27
28
+
LATCH
&
DECODER
CLOCK DRIVER
REFERENCE
CURRENT SOURCE
REFERENCE
VOLTAGE SOURCE
39
VOLTAGE REGULATOR
IOUTG
IOUTGB
50
46
VG1’G
CLKG
VG1G
VGG
43
IrefG
59
58
AVDD
AVDD
64
65
IOUTB
IOUTBB
53
47
VG1’B
CLKB
VG1B
VGB
+
44
IrefB
40
VG2
54
41
AVSS
AVSS
55
VZ
N.C
35
34
Parameter
Digital supply voltage
Analog supply voltage
Digital input voltage
Analog output current
Power dissipation
Operating temperature
Storage temperature
60
38
52
29
30
31
AVDD
AVDD
37
CURRENT
CELL
MATRIX
24
25
IrefR
63
62
51
REFERENCE
CURRENT SOURCE
23
42
61
CLOCK DRIVER
21
B0(LSB)
B1
B2
B3
B4
B5
B6
B7
B8
B9
+
LATCH
&
DECODER
17
18
19
45
VG1’R
CLKR
VG1R
VGR
36
48
CURRENT
CELL
MATRIX
13
ABSOLUTE MAXIMUM RATINGS
Symbol
DVDD
AVDD
VID
IOUT
Pd
Topr
Tstg
CURRENT
CELL
MATRIX
3
4
(Ta = 25°C, unless otherwise noted.)
Conditions
Pin 68
Pin 58, 59, 62, 63, 66, 67
Pin 1 to 19, 21 to 33, 36 to 38
Pin 56, 57, 60, 61, 64, 65
Ratings
0 to 7.0
0 to 7.0
0 to 7.0
-30 to 0
900
0 to +70
-20 to +125
Unit
V
V
V
mA
mW
°C
°C
In current measurement, (+) and (-) is corresponding to an inflow and an outflow current, respectively.
2
MITSUBISHI ICs (AV COMMON)
M65530FP
TRIPLE 10-BIT VIDEO D-A CONVERTER
ELECTRICAL CHARACTERISTICS (Ta = 25°C, AV DD
Symbol
Res
VDD
DIDD
AIDD
NL
DNL
VIH
VIL
tsu
th
ts
VFS
VZ
= DV DD = 5.00V, unless otherwise noted.)
Parameter
Resolution
Supply voltage
Digital supply current
Analog supply current
Integral nonlinearity
Differential nonlinearity
Digital input voltage "H"
Digital input voltage "L"
Data set-up time
Data hold time
Settling time
Full-scale amplitude
Regulated voltage source
Test conditions
4.75
RL=75Ω, Rref=750Ω, ±1%FS
RL=75Ω, Rref=750Ω
VDD
VIH
VIL
tWH
tWL
tsu
th
3
Supply voltage
Digital input voltage (High)
Digital input voltage (Low)
Clock pulse width (High)
Clock pulse width (Low)
Set-up time
Hold time
Min.
4.75
2.15
0
10
10
5
5
Limits
Typ.
5.00
Max.
5.25
VCC
0.85
Unit
V
V
V
ns
ns
ns
ns
5.25
25
2.0
1.28
(Ta = 25°C, unless otherwise noted.)
Max.
± 2.0
± 0.5
VCC
0.85
2.15
0
5
5
RECOMMENDED OPERATING CONDITIONS
Parameter
Limits
Typ.
10
5.00
8
100
RL=75Ω, Rref=750Ω
RL=75Ω, Rref=750Ω
In current measurement, (+) and (-) is corresponding to an inflow and an outflow current, respectively.
Symbol
Min.
Unit
Bits
V
mA
mA
LSB
LSB
V
V
ns
ns
ns
VP-P
V
MITSUBISHI ICs (AV COMMON)
M65530FP
TRIPLE 10-BIT VIDEO D-A CONVERTER
DESCRIPTION OF PIN
Pin No.
Name
I/O
Function
It connects to ---
1 to 10
R0 to R9
I
Digital input pin for a DAC (Red channel).
DSP LSI
11 to 19, 21
G0 to G9
I
Digital input pin for a DAC (Green channel).
DSP LSI
20, 34, 35
N.C.
-
No connection.
It is grounded during actual use.
GND
22 to 31
B0 to B9
I
Digital input pin for a DAC (Blue channel).
DSP LSI
32
BLK
I
Analog output setting during a blanking interval.
Control LSI
33
CEB
I
Power-down control during unused conditions.
Control LSI
CLKR,G,B
I
Clock input.
DSP LSI
39
DVSS
-
Digital ground.
GND
40
VG2
O
Reference voltage for a current switch.
Bypass capacitor
41
AVSS
-
Analog ground.
GND
42 to 44
IrefR,G,B
O
The resistor for a conversion between voltage and current is
connected to this pin.
Current setting
resistor
45 to 47
VGR,G,B
I
A voltage input for an analog output current control.
It is connected to the VZ(pin 55) during an actual use.
Variable resistor
48, 50, 52
VG1R,G,B
O
Phase compensation for a reference current source.
Phase compen.
capacitor
49, 51, 53
VG1’R,G,B
I
A reference voltage input for a current matrix.
It is connected to VG1 according to the application.
Phase compen.
capacitor
54
AVSS
-
Analog ground.
GND
55
VZ
O
Reference voltage output.
Bypass capacitor
56, 60, 64
I OUT R,G,B
O
Analog output.
Output terminal
(filter)
57, 61, 65
I OUT RB,GB,BB
O
Inverse analog output.
GND
58, 59, 62
63, 66, 67
AVDD
-
Analog supply voltage of 5.0V.
Power supply
68
DVDD
-
Digital supply voltage of 5.0V.
Power supply
36 to 38
4
MITSUBISHI ICs (AV COMMON)
M65530FP
TRIPLE 10-BIT VIDEO D-A CONVERTER
Table of an analog power-down function (pin 33)
Analog power-down signal
"H"
"L"
Power-down function
Power-down
Normal operation
Table of a blanking function (pin 32)
Blanking signal
"H"
"L"
Blanking function
Blanking
Normal operation
• A blanking operation sets an analog output to 0V on the first rising edge of the clock after a
blanking signal has become "H" regardless of a digital input code.
Table of an analog output function (iout)
Digital input code
9
MSB
7
6
5
4
3
2
1
0
LSB
Analog output voltage
8
1
1
1
1
1
1
1
1
1
1
2.0000V
1
1
1
1
1
1
1
1
1
0
1.9980V
1
0
0
0
0
0
0
0
0
0
1.0000V
0
1
1
1
1
1
1
1
1
1
0.9980V
0
0
0
0
0
0
0
0
0
1
0.0020V
0
0
0
0
0
0
0
0
0
0
0.0000V
Note : The analog output voltage is a theoretical value in the condition of VDD = 5.0V, VZ = 1.28V, Rref = 768Ω and RL = 75Ω.
INPUT / OUTPUT TIMING DIAGRAM
tsu
th
DATA INPUT
CLOCK INPUT
tWH
tWL
ts
+1%FS
-1%FS
ANALOG OUTPUT
tds
10%
tpd
Where both BLK and CEB are low.
5
50%
tds
7nS
tpd
10nS
MITSUBISHI ICs (AV COMMON)
M65530FP
TRIPLE 10-BIT VIDEO D-A CONVERTER
CURRENT SETTING RESISTOR (Rref) AND
OUTPUT LOAD RESISTOR (RL) (external components)
Full-scale output amplitude (VFS) of each D/A converter is ;
VFS = (VG / Rref) x 16 x RL (VP-P).
where VG = 1.28 V, Rref = 768 Ω, RL = 75 Ω and VDD = 5.0V.
The full-scale output of about 2.0 VP-P is available by setting RL and
Rref to 75 Ω and 768 Ω, respectively.
An output impedance of the analog output terminal is almost the
same as the load resistor (RL).
NOTES TO THE OPERATION
1. Both a ground and a supply planes in a PCB should be as wide
as possible for reducing a parasitic inductance and resistance.
Especially, for the better performance, the analog plane needs to
be much wider.
2. A tantalum or electrolytic capacitor of 10µF or more and a
ceramic capacitor of 0.01µF are tied together, which are
connected between a digital supply and ground, also between a
analog supply and ground.
These capacitors should be placed as close as possible to the
IC.
They work as bypass capacitors for preventing a degradation in
the performance by a supply voltage
fluctuation caused by digital signals including a clock and digital
inputs and so on.
3. The analog output should be isolated as much as possible from a
clock and digital inputs, thus minimizing decoupling and
interactive noise.
6
MITSUBISHI ICs (AV COMMON)
M65530FP
TRIPLE 10-BIT VIDEO D-A CONVERTER
APPLICATION EXAMPLE
68 67 66 65 64 63 62 61 60 59 58 57 56 55
R0
1 R0(LSB)
R1
2 R1
VG1’B 53
AVSS 54
R2
3 R2
VG1B 52
R3
4 R3
VG1’G 51
R4
5 R4
VG1G 50
R5
6 R5
VG1’R 49
R6
7 R6
VG1R 48
R7
8 R7
VGB 47
R8
9 R8
VGG 46
R9
10 R9
G0
11 G0(LSB)
lrefB 44
750Ω
G1
12 G1
lrefG 43
750Ω
G2
13 G2
lrefR 42
750Ω
G3
14 G3
AVSS 41
G4
15 G4
VG2 40
G5
16 G5
DVSS 39
G6
17 G6
18 G7
CLKB 38
CLKB
G7
CLKG 37
CLKG
G8
19 G8
CLKR 36
CLKR
M65530FP
20 N.C
0.01µ
0.01µ
0.01µ
0.01µ
VGR 45
0.01µ
N.C 35
21 22 23 24 25 26 27 28 29 30 31 32 33 34
Units Resistance : Ω
Capacitance : F
Digital power supply
Digital GND
Analog power supply
Analog GND
7