LM1882CM National Semiconductor, LM1882CM Datasheet - Page 4

LM1882CM

Manufacturer Part Number

LM1882CM

Description

IC PROGRAM VIDEO SYNC GEN SO20

Manufacturer

National Semiconductor

Type

Video Syncr

Datasheet

1.LM1882CM.pdf (16 pages)

Specifications of LM1882CM

Applications

Monitors, TV

Mounting Type

Surface Mount

Package / Case

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

*LM1882CM

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Signal Specification

posed because during interlace operation this value is inter-

nally divided by 2 in order to generate serration and equal-

Horizontal Period (HPER)

Horizontal Blanking Width:

Horizontal Sync Width:

Horizontal Front Porch:

VERTICAL SYNC AND BLANK SPECIFICATION

All vertical signals are defined in terms of number of lines per

frame. This is true in both interlaced and noninterlaced

modes of operation. Care must be taken to not specify the

Vertical Registers in terms of lines per field. Since the first

CLOCK edge, CLOCK # 1, causes the first falling edge of the

Vertical Blank (first Horizontal Blank) reference pulse, edges

referenced to this first edge are n + 1 lines away, where “n”

is the width of the timing in question. Registers 5, 6, and 7

are programmed in this manner. Also, in the interlaced

mode, vertical timing is based on half-lines. Therefore regis-

ters 5, 6, and 7 must contain a value twice the total horizontal

(odd and even) plus 1 (as described above). In

non-interlaced mode, all vertical timing is based on

whole-lines. Register 8 is always based on whole-lines and

does not add 1 for the first clock. The vertical counter starts

at the value of 1 and counts until the value of VMAX. No re-

strictions exist on the values placed in the vertical registers.

Vertical Blank will change on the leading edge of HBLANK.

Vertical Sync will change on the leading edge of HSYNC.

(See Figure 2 .)

Vertical Frame Period (VPER) = REG(8) x hper

Vertical Field Period (VPER/n) = REG(8) x hper/n

Vertical Blanking Width = [REG(7) − 1] x hper/n

= [REG(3) − 1] x ckper

REG(4) x ckper

[REG(2) − REG(1)] x ckper

[REG(1) − 1] x ckper

(Continued)

FIGURE 1. Horizontal Waveform Specification

ization pulses at 2 x the horizontal frequency. Horizontal

signals will change on the falling edge of the CLOCK signal.

Signal specifications are shown below.

Vertical Syncing Width = [REG(6) − REG(5)] x hper/n

Vertical Front Porch = [REG(5) − 1] x hper/n

where

COMPOSITE SYNC AND BLANK SPECIFICATION

Composite Sync and Blank signals are created by logically

ANDing (ORing) the active LOW (HIGH) signals of the corre-

sponding vertical and horizontal components of these sig-

nals. The Composite Sync signal may also include serration

and/or equalization pulses. The Serration pulse interval oc-

curs in place of the Vertical Sync interval. Equalization

pulses occur preceding and/or following the Serration

pulses. The width and location of these pulses can be pro-

grammed through the registers shown below. (See Figure 3 .)

Horizontal Equalization PW = [REG(9) − REG(1)] x ckper

Horizontal Serration PW:

Where

n = 1 for noninterlaced

n = 2 for interlaced

equalization

n = 2 for interlaced operation

for

noninterlaced

REG 9 = (HFP) + (HEQP) + 1

[REG(4)/n

REG(10)] x ckper

REG

(HPER/2) − (HSERR) + 1

DS100232-4

double

single

REG(1)

(HFP)

serration/

−

LM1882CM National Semiconductor, LM1882CM Datasheet - Page 4

LM1882CM

Specifications of LM1882CM

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