X9530V14I Intersil, X9530V14I Datasheet - Page 18

X9530V14I

Manufacturer Part Number

X9530V14I

Description

IC LASR CTRLR 1CHAN 5.5V 14TSSOP

Manufacturer

Intersil

Type

Laser Diode Controller (Fiber Optic)r

Datasheet

1.X9530V14IZT1.pdf (28 pages)

Specifications of X9530V14I

Number Of Channels

Voltage - Supply

3 V ~ 5.5 V

Current - Supply

9mA

Operating Temperature

-40°C ~ 100°C

Package / Case

14-TSSOP

Mounting Type

Surface Mount

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

X9530V14I

Manufacturer:

Intersil

Quantity:

270

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The four registers Control 1 through 4, have a

nonvolatile and a volatile cell for each bit. At power-up,

the content of the nonvolatile cells is automatically

recalled and written to the volatile cells. The content of

the volatile cells controls the X9530’s functionality. If

bit NV1234 in the Control 0 register is set to “1”, a

Write operation to these registers writes to both the

volatile and nonvolatile cells. If bit NV1234 in the

Control 0 register is set to “0”, a Write operation to

these registers only writes to the volatile cells. In both

cases the newly written values effectively control the

X9530, but in the second case, those values are lost

when the part is powered down.

If bit NV1234 is set to “0”, a Byte Write operation to

Control registers 0 or 5 causes the value in the

nonvolatile cells of Control registers 1 through 4 to be

recalled into their corresponding volatile cells, as

during power-up. This doesn’t happen when the WP

pin is LOW, because Write Protection is enabled. It is

generally recommended to configure Control registers

0 and 5 before writing to Control registers 1 through 4.

Figure 18. Writing to Control Registers 1, 2, 3, and 4

Figure 17. Example: Writing 12 bytes to a 16-byte page starting at location 11.

Signal at SDA

Signals from

the Master

the Slave

Address=0

7 bytes

Address

Slave

Address=6

Write

Byte = 81h

Address

X9530

0 0

Address=7

Address Pointer

Ends Up Here

When reading any of the control registers 1, 2, 3, or 4,

the Data Bytes are always the content of the

corresponding nonvolatile cells, even if bit NV1234 is

"0" (See “Control and Status Register Format”).

Read Operation

A Read operation consist of a three byte instruction

followed by one or more Data Bytes (See Figure 19).

The master initiates the operation issuing the following

sequence: a START, the Slave Address byte with the

R/W bit set to “0”, an Address Byte, a second START,

and a second Slave Address byte with the R/W bit set

to “1”. After each of the three bytes, the X9530

responds with an ACK. Then the X9530 transmits

Data Bytes as long as the master responds with an

ACK during the SCL cycle following the eigth bit of

each byte. The master terminates the read operation

(issuing a STOP condition) following the last bit of the

last Data Byte (See Figure 19).

Data Byte for

Control 1

Address=11

Four Data Bytes

5 bytes

Data Byte for

Address=15

Control 4

November 11, 2005

FN8211.1

X9530V14I Intersil, X9530V14I Datasheet - Page 18

X9530V14I

Specifications of X9530V14I

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