Z16C3516VSG Zilog, Z16C3516VSG Datasheet - Page 191

Z16C3516VSG

Manufacturer Part Number

Z16C3516VSG

Description

IC 16MHZ Z8500 CMOS ISCC 68-PLCC

Manufacturer

Zilog

Series

IUSC™r

Datasheets

1.Z16C3510VSG.pdf (268 pages)

2.Z16C3510VSG.pdf (2 pages)

Specifications of Z16C3516VSG

Controller Type

Serial Communications Controller (SCC)

Interface

USB

Voltage - Supply

4.75 V ~ 5.25 V

Current - Supply

50mA

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

68-LCC (J-Lead)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

269-4690-5
Z16C3516VSG

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UM011001-0601

Notes on Figure 1:

1. The SCC has two possible idle states, Mark idle

2. Transmit Buffer Empty Interrupt for 81H. At this point

3. The time between the first data byte being transferred

9. The transmitted CRC is 16 bits long provided that

10. The last interrupt generated occurs after the CRC is

(contiguous logic 1) or Flag idle (repeating flag pattern

7EH). In this figure, the SCC has to be switched to flag

idle in order to send the opening flag of the frame.

Care must be taken not to put the first data byte (in this

case, address 81H) into the Transmit Buffer too soon

after the switchover from Mark idle to Flag idle has

been made; otherwise, the data may be loaded into

the Transmit Shift Register before the flag is loaded.

To ensure that this cannot happen, a delay must be

executed before the first data byte is put into the

buffer. The delay time is dependent on the data rate

and a safe minimum duration is 8 bit-times.

the data has just been transferred to the Transmit Shift

Buffer.

to the Shift Register and the first bit appearing at the

TxD pin is always six bit-times.

there are no zero insertions. In theory it could be as

long as 19 bits.

shifted out of the transmitter and a flag is loaded to be

sent. It is a Transmit Buffer Empty Interrupt. If another

Abort/Flag on

Underrun bit

Tx Underrun/EOM Latch

State when Underrun occurs

Reset

Set

Serial Communication Controller (SCC

4. Transmit Buffer Empty Interrupt for data 42H. Data

5. Transmit Buffer Empty Interrupt for data 0FFH. Data

6. The time between interrupts depends on the data

7. Transmit Buffer Empty Interrupt for data 42H. Since

8. Transmitter Underrun/EOM Interrupt. This occurs

11. If the SCC is set up for mark on idle and a new

0FFH is written to the Transmit Buffer at this point.

42H is written to the Transmit Buffer at this point.

character length and the number of zero insertions in

the character. For 8 bits/character it can vary between

8 and 10 bit-times. The particular instance shown

corresponds to the single zero insertion when the byte

0FFH is transmitted.

this is the last byte to be transmitted, the Reset

Transmit Interrupt Pending command is issued

instead of writing another byte to the Transmit Buffer.

when both the Transmit Shift Register and the

Transmit Buffer are empty. It is an External/Status

interrupt. The data sent when this occurs is

summarized in the table below:

frame is to be transmitted, the first character of the

next frame can be loaded. The two frames will then be

separated by a single flag (Back-to-back frame).

character is not loaded when the last interrupt occurs,

only a single flag is sent.

™

Data

Sent

CRC and Flag

Abort and Flag

Flags

): SDLC Mode of Operation

Application Note

11-3

Z16C3516VSG Zilog, Z16C3516VSG Datasheet - Page 191

Z16C3516VSG

Specifications of Z16C3516VSG

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