Figure5.3 rise and fall time test condition, Figure5.4 scsi input filtering, Rise and fall time test condition – Avago Technologies LSI53C1020 User Manual

5-8

Specifications

Version 2.4

Copyright © 2001–2004 by LSI Logic Corporation. All rights reserved.

Figure 5.3

Rise and Fall Time Test Condition

Figure 5.4

SCSI Input Filtering

I

LL

Input low leakage

–

20

µ

A

−

0.5<V

DD

<5.25

V

PIN

= 0.5 V

R

I

Input resistance

20

–

M

Ω

Receivers disabled

C

P

Capacitance per pin

–

8

pF

PQFP

dVH/dt

Slew rate LOW to HIGH

110

540

mV/ns

See

Figure 5.3

dVL/dt

Slew rate HIGH to LOW

110

540

mV/ns

See

Figure 5.3

ESD

HBM

Electrostatic discharge (HBM)

2

–

kV

MIL-STD-883C;

Method 3015-7;

100 pF at 1.5 k

Ω

ESD

CDM

Electrostatic discharge (CDM)

0.5

–

kV

ESD DS5.3.1-1996

–

Latch-up

100

–

mA

–

–

Filter delay

20

30

ns

See

Figure 5.4

–

Ultra filter delay

10

15

ns

See

Figure 5.4

–

Ultra2 filter delay

5

8

ns

See

Figure 5.4

–

Extended filter delay

40

60

ns

See

Figure 5.4

1. These values are guaranteed by periodic characterization; they are not 100% tested on every device.
2. Active negation outputs only: Data, Parity, SREQ/, and SACK/. SCSI SE mode only (minus pins).
3. Single pin only; irreversible damage can occur if sustained for longer than one second.

Table 5.12

TolerANT Technology Electrical Characteristics for SE SCSI
Signals

1

(Cont.)

Symbol

Parameter

Min

Max

Unit

Test Conditions

+
−

2.5 V

47

Ω

20 pF

REQ/ or ACK/ Input

t

1

V

TH

Note: t

1

is the input filtering period.