LM628N-6/NOPB National Semiconductor, LM628N-6/NOPB Datasheet - Page 17

LM628N-6/NOPB

Manufacturer Part Number

LM628N-6/NOPB

Description

IC CONTROLLER PREC MOTION 28-DIP

Manufacturer

National Semiconductor

Type

Precision Motor Controllerr

Datasheet

1.LM629N-6NOPB.pdf (26 pages)

Specifications of LM628N-6/NOPB

Applications

DC Motor Controller, Servo

Number Of Outputs

Voltage - Supply

4.5 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Through Hole

Package / Case

28-DIP (0.600", 15.24mm)

Package

28MDIP

Maximum Operating Current

110 mA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output

Voltage - Load

Other names

*LM628N-6
*LM628N-6/NOPB
LM628N-6

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Part Number:

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Manufacturer:

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Data Reporting Commands

LPEI or LPES has been exceeded. The flag is functional

independent of the host interrupt mask status. Bit 5 is

cleared via command RSTI.

Bit 4, the wraparound interrupt flag, is set to logic one when

a numerical “wraparound” has occurred. To “wraparound”

means to exceed the position address space of the LM628,

which could occur during velocity mode operation. If a wrap-

around has occurred, then position information will be in

error and this interrupt helps the user to ensure position data

integrity. The flag is functional independent of the host inter-

rupt mask status. Bit 4 is cleared via command RSTI.

Bit 3, the index-pulse acquired interrupt flag, is set to logic

one when an index pulse has occurred (if command SIP had

been executed) and indicates that the index position register

has been updated. The flag is functional independent of the

host interrupt mask status. Bit 3 is cleared by command

RSTI.

Bit 2, the trajectory complete interrupt flag, is set to logic one

when the trajectory programmed by the LTRJ command and

initiated by the STT command has been completed. Be-

cause of overshoot or a limiting condition (such as com-

manding the velocity to be higher than the motor can

achieve), the motor may not yet be at the final commanded

position. This bit is the logical OR of bits 7 and 10 of the

Signals Register, see command RDSIGS below. The flag

functions independently of the host interrupt mask status. Bit

2 is cleared via command RSTI.

Bit 1, the command-error interrupt flag, is set to logic one

when the user attempts to read data when a write was

appropriate (or vice versa). The flag is functional indepen-

dent of the host interrupt mask status. Bit 1 is cleared via

command RSTI.

Bit 0, the busy flag, is frequently tested by the user (via the

host computer program) to determine the busy/ready status

prior to writing and reading any data. Such writes and reads

may be executed only when bit 0 is logic zero (not busy). Any

command or data writes when the busy bit is high will be

ignored. Any data reads when the busy bit is high will read

the current contents of the I/O port buffers, not the data

expected by the host. Such reads or writes (with the busy bit

high) will not generate a command-error interrupt.

RDSIGS COMMAND: READ SIGNALS REGISTER

The LM628 internal “signals” register may be read using this

command. The first byte read is the more significant. The

less significant byte of this register (with the exception of bit

0) duplicates the status byte. See Table 8.

(Continued)

Bit Position

Command Code:

Bytes Read:

Data Range:

Executable During Motion: Yes

Bit 15

Bit 14

Bit 13

Bit 12

Bit 11

TABLE 8. Signals Register Bit Allocation

Host Interrupt

Acceleration Loaded (But Not Updated)

UDF Executed (But Filter Not yet Updated)

Forward Direction

Velocity Mode

0C Hex

Two

See Text

Function

Bit 15, the host interrupt flag, is set to logic one when the

host interrupt output (Pin 17) is logic one. Pin 17 is set to

logic one when any of the six host interrupt conditions occur

(if the corresponding interrupt has not been masked). Bit 15

(and Pin 17) are cleared via command RSTI.

Bit 14, the acceleration-loaded flag, is set to logic one when

acceleration data is written to the LM628. Bit 14 is cleared by

the STT command.

Bit 13, the UDF-executed flag, is set to logic one when the

UDF command is executed. Because bit 13 is cleared at the

end of the sampling interval in which it has been set, this

signal is very short-lived and probably not very profitable for

monitoring.

Bit 12, the forward direction flag, is meaningful only when the

LM628 is in velocity mode. The bit is set to logic one to

indicate that the desired direction of motion is “forward”; zero

indicates “reverse” direction. Bit 12 is set and cleared via

command LTRJ. The actual setting and clearing of bit 12

does not occur until command STT is executed.

Bit 11, the velocity mode flag, is set to logic one to indicate

that the user has selected (via command LTRJ) velocity

mode. Bit 11 is cleared when position mode is selected (via

command LTRJ). The actual setting and clearing of bit 11

does not occur until command STT is executed.

Bit 10, the on-target flag, is set to logic one when the

trajectory generator has completed its functions for the last-

issued STT command. Bit 10 is cleared by the next STT

command.

Bit 9, the turn-off on-error flag, is set to logic one when

command LPES is executed. Bit 9 is cleared by command

LPEI.

Bit 8, the 8-bit output flag, is set to logic one when the LM628

is reset, or when command PORT8 is executed. Bit 8 is

cleared by command PORT12.

Bits 0 through 7 replicate the status byte (see ), with the

exception of bit 0. Bit 0, the acquire next index flag, is set to

logic one when command SIP is executed; it then remains

set until the next index pulse occurs.

RDIP COMMAND: READ INDEX POSITION

This command reads the position recorded in the index

error checking scheme. Whenever the SIP command is ex-

ecuted, the new index position minus the old index position,

Bit Position

Command Code:

Bytes Read:

Data Range:

Executable During Motion: Yes

Bit 10

Bit 9

Bit 8

Bit 7

Bit 6

Bit 5

Bit 4

Bit 3

Bit 2

Bit 1

Bit 0

On Target

Turn Off upon Excessive Position Error

Eight-Bit Output Mode

Motor Off

Breakpoint Reached [Interrupt]

Excessive Position Error [Interrupt]

Wraparound Occurred [Interrupt]

Index Pulse Acquired [Interrupt]

Trajectory Complete [Interrupt]

Command Error [Interrupt]

Acquire Next Index (SIP Executed)

09 Hex

Four

C0000000 to 3FFFFFFF Hex

Function

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LM628N-6/NOPB National Semiconductor, LM628N-6/NOPB Datasheet - Page 17

LM628N-6/NOPB

Specifications of LM628N-6/NOPB

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