MITEL VP531GP1N, VP531E, VP531CG Datasheet

The VP531/VP551 converts digital Y, Cr, Cb, data into
analog NTSC/PAL composite video and S-video signals
The outputs are capable of driving doubly terminated 75
ohm loads with standard video levels.

The device accepts data inputs complying with CCIR
Recommendation 601 and 656. The data is time multiplexed
on an 8 bit bus at 27MHz and is formatted as Cb, Y, Cr, Y
(i.e. 4:2:2). The video blanking and sync information from
REC 656 is included in the data stream when the VP531 is
working in slave mode.

The output pixel rate is 27MHz and the input pixel rate
is half this frequency, i.e. 13.5MHz.

All necessary synchronisation signals are generated
internally when the device is operating in master mode. In
slave mode the device will lock to the TRS codes or the HS
and VS inputs.

The rise and fall times of sync, burst envelope and
video blanking are internally controlled to be within
composite video specifications.

Two 9 bit digital to analog converters (DACs) are used
to convert the digital luminance and chrominance data into
analog signals. An inverted composite video signal is
generated by summing the complementary current outputs
of each DAC. An internally generated reference voltage
provides the biasing for the DACs.

FEATURES

■ Converts Y, Cr, Cb data to analog composite video and

S-video

■ Supports CCIR recommendations 601 and 656

■ All digital video encoding

■ Selectable master/slave mode for sync signals

■ Switchable chrominance bandwidth

■ Switchable pedestal with gain compensation

■ SMPTE 170M NTSC or CCIR 624 PAL compatible

outputs

■ GENLOCK mode

■ I2C bus serial microprocessor interface

■ VP531E supports Macrovision anti-taping format REV

6.1 in PAL and REV 7.01 in NTSC

APPLICATIONS

■ Digital Cable TV

■ Digital Satellite TV

■ Multi-media

■ Video games

■ Karaoke

■ Digital VCRs

ORDERING INFORMATION

VP531E/CG/GP1N
VP551E/CG/GP1N

PIN FUNCTION PIN FUNCTION

1 VDD 33 VDD
2 GND 34 RESET
3 D0 (VS I/O) 35 REFSQ
4 D1 (HS I/O) 36 GND
5 D2 (FC0 O/P) 37 VDD
6 D3 (FC1 O/P) 38 GND
7 D4 (FC2 O/P) 39 PD7
8 D5 40 PD6
9 D6 (SCSYNC I/P) 41 PD5
10 D7 (PALID I/P) 42 PD4
11 GND 43 PD3
12 VDD 44 PD2
13 GND 45 PD1
14 GND 46 PD0
15 PXCK 47 GND
16 VDD 48 VDD
17 CLAMP 49 AGND
18 COMPSYNC 50 VREF
19 GND 51 DACGAIN
20 VDD 52 COMP
21 TDO 53 AVDD
22 TDI 54 LUMAOUT
23 TMS 55 AGND
24 TCK 56 COMPOUT
25 GND 57 AGND
26 SA1 58 CHROMAOUT
27 SA2 59 AVDD
28 SCL 60 N/C
29 VDD 61 N/C
30 SDA 62 AVDD
31 GND 63 AVDD
32 VDD 64 N/C

Fig.1 Pin connections (top view)

GP64

PIN 64

PIN 1

VP531E/VP551E

NTSC/PAL Digital Video Encoder

Advance Information

Supersedes DS4573 1.4 May 1997 edition DS4573 - 2.3 October1998

VP531E/VP551E

2

66.83

1.050
27k

1.3699

24.93

80

33.75

17.64

1.40

7.62

7.62

0.40

34.15

18.71

8.02

8.02

0.00

ELECTRICAL CHARACTERISTICS

Test conditions (unless otherwise stated): As specified in Recommended Operating Conditions

DC CHARACTERISTICS

VIN

VIL

VIH

VIL

IIH
IIL

VOH

VOL

VOL

2.0

0.7 VDD

3.7

0.8

0.3 VDD
10

-10

0.4

0.6

V
V

V
V

µA
µA

V
V

V

Parameter Conditions

VIN = VDD
VIN = VSS

IOH = -1mA
IOL = +4mA

IOL = +6mA

Symbol Min.

Typ.

Max.

Units

ELECTRICAL CHARACTERISTICS

Test conditions (unless otherwise stated): As specified in Recommended Operating Conditions

DC CHARACTERISTICS DACs

INL

DNL

VREF

ZR

IREF

KDAC

±1.5

±1
±5

LSB
LSB

% grey

µA

V

Ω

mA

pV-s

mA
mA
mA
mA
mA
mA

mA
mA
mA
mA
mA

Parameter

Symbol Min.

Typ.

Max.

Units

Accuracy (each DAC)

Integral linearity error
Diffential linearity error
DAC matching error
Monotonicity

LSB size
Internal reference voltage
Internal reference voltage output impedance
Reference Current (V

REF/RREF) RREF = 769Ω

DAC Gain Factor (VOUT = KDAC x IREF x RL). VOUT = DAC code 511
Peak Glitch Energy (see fig.8)

CVBS (see note), Y and C - NTSC (pedestal enabled)
Maximum output, relative to sync bottom
White level relative to black level
Black level relative to blank level
Blank level relative to sync level
Colour burst peak - peak
DC offset (bottom of sync)

CVBS, Y and C - PAL
Maximum output
White level relative to black level
Black level relative to sync level
Colour burst peak - peak
DC offset (bottom of sync)

Digital Inputs TTL compatible (except SDA, SCL)

Input high voltage
Input low voltage

Digital Inputs SDA, SCL

Input high voltage
Input low voltage
Input high current
Input low current

Digital Outputs CMOS compatible

Output high voltage
Output low voltage

Digital Output SDA

Output low voltage

guaranteed

Note: For the inverted CVBS output subtract the above currents from the maximum output (DAC code 511 = 34.12mA).
All figures are for: RREF = 769Ω, RL = 37.5Ω. When the device is set up in NTSC mode there is a +0.25% error in the PAL levels.
If RL = 75Ω then RREF = 1538Ω

VP531E/VP551E

3

ABSOLUTE MAXIMUM RATINGS

Supply voltage VDD, AVDD -0·3 to 7·0V
Voltage on any non power pin -0·3 to VDD+0·3V
Ambient operating temperature 0 to 70°C
Storage temperature -55°C to 150°C

Note: Stresses exceeding these listed under Absolute
Maximum Ratings may induce failure. Exposure to Absolute
Maximum Ratings for extended periods may reduce
reliability. Functionality at or above these conditions is not
implied.

RECOMMENDED OPERATING CONDITIONS

Parameter

Min.

Typ.

Max.

Units

Power supply voltage
Power supply current (including analog outputs)
Input clock frequency
SCL clock frequency
Analog video output load
DAC gain resistor
Ambient operating temperature

Symbol

VDD, AVDD

IDD

PXCK

fscl

4.75

-50ppm

0

5.25

+50ppm

500

70

V

mA

MHz

kHz

Ω
Ω

°C

5.00
150

27.00

37.5
769

VIDEO CHARACTERISTICS

Parameter

-61

-56

-58

2.5

2.5

Max.Symbol Min.

Typ.

5.5

1.3

650

3.57954545

4.43361875

3.58205625
9

10
300
145
245

1.5

0.5

-60
10

MHz
MHz

kHz
MHz
MHz
MHz

Fsc cycles
Fsc cycles

ns
ns
ns

% pk-pk

° pk-pk

dB
dB
dB

%
%

dB

ns

Units

ESD COMPLIANCE

Pins

All pins
All pins

Notes

Meets Mil-Std-883 Class 2

Test Levels

2kV on 100pF through 1k5Ω

200V on 200pF through 0Ω & 500nH

Test

Human body model

Machine model

Luminance bandwidth
Chrominance bandwidth (Extended B/w mode)
Chrominance bandwidth (Reduced B/w mode)
Burst frequency (NTSC)
Burst frequency (PAL-B, D,G, H, I)
Burst frequency (PAL-N Argentina)
Burst cycles (NTSC and PAL-N)
Burst cycles (NTSC and PAL-B, D, G, H,I)
Burst envelope rise / fall time (NTSC and PAL-B, D, G, H,I)
Analog video sync rise / fall time (NTSC and PAL-N)
Analog video blank rise / fall time (NTSC and PAL-B, D, G, H,I)
Differential gain
Differential phase
Signal to noise ratio (unmodulated ramp)
Chroma AM signal to noise ratio (100% red field)
Chroma PM signal to noise ratio (100% red field)
Hue accuracy
Colour saturation accuracy
Residual sub carrier
Luminance / chrominance delay

VP531E/VP551E

4

Figure 2 VP531E Functional block diagram, VP551E is identical except there is no Anti-Taping Control

I2C INTERF ACE

SET-UP

REGISTERS

ANTI-TAPING

CONTROL

VIDEO TIMI NG GENERATOR

COLOUR SU BCARRI ER

GENERATOR

MODU LATOR

CHROMA

LOW-PASS

FILTER

INPUT
DEMUX

8

8

PD7-0

D7-0

PXCK

SDA
SCL

SA1
SA2

Y

Cr

Cb

SYNC
BLANK
INSERT

LUMA OU T

COMP

CHROMA OUT

INTERPOLATOR

INTERPOLATOR

JTAG .

GENERAL

PURPOSE PORT

&
CHROMA

INTERP

RESET

CLAMP

CHROMA

DAC

COMP

DAC

OUT

TDI

TMS TCK

TDO

+

DAC
REF

VREF

+

REFSQ

DIGITAL
PHASE COMP

CLOSED

CAPTION

+

DACGAIN

COMP

COMPSYNC

LUMA

DAC

VP531E/VP551E

5

Pin Name Pin No. Description

PD0-7 39 - 46 8 Bit Pixel Data inputs clocked by PXCK. PD0 is the least significant bit, corresponding to Pin

46. These pins are internally pulled low.

D0-7 3 - 10 8 Bit General Purpose Port input/output. D0 is the least significant bit, corresponding to Pin 3.

These pins are internally pulled low.

PXCK 15 27MHz Pixel Clock input. The VP531 internally divides PXCK by two to provide the pixel

clock.

CLAMP 17 The CLAMP output signal is synchronised to COMPSYNC output and indicates the position of

the BURST pulse, (lines 10-263 and 273-525 for NTSC; lines 6-310 and 319-623 for PAL-

B,D, G,I,N(Argentina)).
COMPSYNC 18 Composite sync pulse output. This is an active low output signal.
TDO 21 JTAG Data scan output port.
TDI 22 JTAG Data scan input port.
TMS 23 JTAG Scan select input.
TCK 24 JTAG Scan clock input.
SA1 26 Slave address select.
SA2 27 Slave address select.
SCL 28 Standard I

2

C bus serial clock input.

SDA 30 Standard I

2

C bus serial data input/output.

RESET 34 Master reset. This is an asynchronous active low input signal and must be asserted for a

minimum of 200ns in order to reset the VP531/VP551.
REFSQ 35 Reference square wave input used only during Genlock mode.
VREF 50 Voltage reference output. This output is nominally 1·055V and should be decoupled with a

100nF capacitor to GND.
DAC GAIN 51 DAC full sacle current control. A resistor connected between this pin and GND sets the

magnitude of the video output current. An internal loop amplifier control a reference current

flowing through this resistor so that the voltage across it is equal to the Vref voltage.
COMP 52 DAC compensation. A 100nF ceramic capacitor must be connected between pin 52 and pin

53.
LUMAOUT 54 True luminance, true chrominance and inverted composite video signal outputs. These are
COMPOUT 56 high impedance current source outputs. A DC path to GND must exist from each of these
CHROMAOUT 58 pins
NOT USED 60, 61, 64
VDD 1, 12, 16, Positive supply input. All VDD pins must be connected.

20, 29,
32, 33,

37, 48

AVDD 53, 59 Analog positive supply input. All AVDD pins must be connected.

62, 63

GND 2, 11, 13, Negative supply input. All GND pins must be connected.

14, 19,
25, 31,

36, 38, 47

AGND 49, 55, 57 Negative supply input. All AGND pins must be connected.

PIN DESCRIPTIONS