LMH1982SQE/NOPB National Semiconductor, LMH1982SQE/NOPB Datasheet - Page 26

LMH1982SQE/NOPB

Manufacturer Part Number

LMH1982SQE/NOPB

Description

IC CLK GEN MULTI RATE VID 32-LLP

Manufacturer

National Semiconductor

Type

Clock Generatorr

Datasheet

1.LMH1982SQENOPB.pdf (34 pages)

Specifications of LMH1982SQE/NOPB

Applications

Displays, Projectors, Receivers

Mounting Type

Surface Mount

Package / Case

32-LLP

For Use With

LMH1982SQEEVAL - BOARD EVAL FOR LMH1982SQE

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

LMH1982SQETR

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9.1 Genlock And Input Reference Control Registers

Bits 2-0: H Input Error Max Count (H_ERROR)

The H_ERROR bits control the reference detector's error

threshold, which determines the maximum number of missing

H sync pulses before indicating a LOR. See section 6.1.1

Programming the Loss of Reference (LOR) Threshold.

Bit 3: Holdover on Loss of Reference (HOLDOVER)

The HOLDOVER bit controls the operating mode when a loss

of reference occurs. See section 3.2.2 Loss of Reference

(LOR).

Bit 4: Reference Select (RSEL)

The RSEL bit selects either REF_A or REF_B inputs as the

reference to genlock the outputs when I

If PIN6_OVRD = 1 (register 02h), then reference selection

must be controlled by programming RSEL, regardless of

reference selection is controlled using the REF_SEL input pin

and the RSEL bit is ignored.

Bit 5: Reference Select Control via I

By programming I

trolled either via I

RSEL.

REF_SEL input pin.

Note: If PIN6_OVRD = 1, then reference selection must be controlled by

Bit 6: Mode Select (GNLK)

The GNLK bit selects the operating mode when I

1. See section 3.0 MODES OF OPERATION.

If I

using the GENLOCK input pin and the GNLK bit will be ig-

nored.

Bit 7: Mode Select via I

By programming I

trolled either via I

GNLK.

input pin.

9.2 Genlock Status And Lock Control Register

Bit 0: Reference Status (REF_VALID)

REF_VALID is a read-only bit and indicates the presence or

loss of reference on the selected reference port in Genlock

mode. The NO_REF output flag is an inverted copy of

REF_VALID. See section 6.1 Reference Detection.

In Free Run mode, REF_VALID will be set to 0 to indicate the

absence of any input pulses at the selected HREF port.

C_RSEL. When PIN6_OVRD = 0 and I

RSEL = 0: Select REF_A inputs.

RSEL = 1: Select REF_B inputs.

GNLK = 0: Selects Free Run mode.

GNLK = 1: Selects Genlock mode.

REF_VALID = 0: Indicates loss of reference (LOR).

REF_VALID = 1: Indicates valid reference.

C_GNLK = 0, then the operating mode will be controlled

C_RSEL = 1: Control reference selection by programming

C_RSEL = 0: Control reference selection via the

C_GNLK = 1: Control mode selection by programming

C_GNLK = 0: Control mode selection via the GENLOCK

programming RSEL regardless of I

C or the REF_SEL input pin.

C or the GENLOCK input pin.

C_RSEL, reference selection can be con-

C_GNLK, mode selection can be con-

C (I

C_GNLK)

C_RSEL.

C (I

C_RSEL = 1.

C_RSEL = 0, then

C_RSEL)

C_GNLK =

Bit 1: SD Clock PLL Lock Status (SD_LOCK)

SD_LOCK is a read-only bit and indicates PLL lock status of

the selected SD clock. See section 6.2 PLL Lock Detection.

Bit 2: HD Clock PLL Lock Status (HD_LOCK)

HD_LOCK is a read-only bit and indicates PLL lock status of

the selected HD clock. See section 6.2 PLL Lock Detection.

Bits 7-3: Lock Control (LOCK_CTRL)

LOCK_CTRL controls the phase error threshold of PLL 1's

lock detector. A larger value for LOCK_CTRL will yield shorter

lock indication time (although not actual lock time) at the ex-

pense of higher output phase error when lock is initially indi-

cated, whereas a smaller value will yield the opposite effect.

See section 6.2.1 Programming the PLL Lock Threshold.

9.3 Input Control Register

Bit 0: VREF_B Input Signal Polarity (POL_VB)

This bit should be programmed to match the input signal po-

larity at the VREF_B input pin.

Bit 1: HREF_B Input Signal Polarity (POL_HB)

This bit should be programmed to match the input signal po-

larity at the HREF_B input pin. The positive edge of the output

clock will be phase locked to the active edge of the H sync

input signal.

Bit 2: VREF_A Input Signal Polarity (POL_VA)

This bit should be programmed to match the input signal po-

larity at the VREF_A input pin.

Bit 3: HREF_A Input Signal Polarity (POL_HA)

This bit should be programmed to match with the input signal

polarity at HREF_A input pin. The positive edge of the output

clock will be phase locked to the active edge of the H sync

input signal.

Bit 4: 27 MHz Reference Control (27M_REF)

Instead of an H sync signal, a 27 MHz clock signal can be

applied to the selected HREF input to phase lock the output

clocks. If a 27 MHz clock is used as a reference, then a value

of 1 should be programmed to 27M_REF, REF_DIV_SEL,

and FB_DIV.

REF_DIV_SEL =1 and FB_DIV = 1

Note: Because the loop gain, K, for 27 MHz clock input is much larger than

SD_LOCK = 0: Indicates loss of lock.

SD_LOCK = 1: Indicates valid lock.

HD_LOCK = 0: Indicates loss of lock.

HD_LOCK = 1: Indicates valid lock.

POL_VB = 0: Negative polarity or active low signal.

POL_VB = 1: Positive polarity or active high signal.

POL_HB = 0: Negative polarity or active low signal.

POL_HB = 1: Positive polarity or active high signal.

POL_VA = 0: Negative polarity or active low signal.

POL_VA = 1: Positive polarity or active high signal.

POL_HA = 0: Negative polarity or active low signal.

POL_HA = 1: Positive polarity or active high signal.

27M_REF = 0: H sync input signal.

27M_REF = 1: 27 MHz clock input signal. Also, set

for an H sync input (due to the large difference in FB_DIV), the loop

LMH1982SQE/NOPB National Semiconductor, LMH1982SQE/NOPB Datasheet - Page 26

LMH1982SQE/NOPB

Specifications of LMH1982SQE/NOPB

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