Figure 2-13. slot-select timing diagram, Figure 2-13, Slot-select timing diagram – National Instruments SCXI-1120 User Manual

Chapter 2

Configuration and Installation

© National Instruments Corporation

2-29

SCXI-1120 User Manual

0

1

0 0

1

1 0

1

1

Chassis ID = 9

Slot 11

SERDATIN

SS*X

Chassis Y

SS*11

Chassis 9

SERCLK

SLOT0SEL*

T

ss_dis

T

ss_en

T

clk_wait

T

slot0sel*_wait

T

ss _ dis

SLOT0SEL* low to SS* disabled

200 nsec maximum

T

clk _ wait

SLOT0SEL* low to first rising edge on SERCLK

75 nsec minimum

T

slot0sel* _ wait

Last rising edge on SERCLK to SLOT0SEL* high

250 nsec minimum

T

ss _ en

SLOT0SEL* high to SS* enabled

350 nsec maximum

Figure 2-13. Slot-Select Timing Diagram

To write the 16-bit slot-select number to Slot 0, follow these steps:

1. Initial conditions:

SERDATIN = don't care.
DAQD*/A = don't care.
SLOT0SEL* = 1.
SERCLK = 1.

2. Clear SLOT0SEL* to 0. This will deassert all SS* lines to all modules in all chassis.

3. For each bit, starting with the MSB, perform the following action:

a. SERDATIN = bit to be sent. These bits are the data that are being written to the

Slot-Select Register.

b. SERCLK = 0.

c. SERCLK = 1. This rising edge clocks the data.

4. Set SLOT0SEL* to 1. This will assert the SS* line of the module whose slot number was

written to Slot 0. If multiple chassis are being used, only the appropriate slot in the chassis
whose address corresponds to the written chassis number will be selected. When no
communication is taking place between the data acquisition board and any modules, you
should write zero to the Slot-Select Register to ensure that no accidental writes occur.

Figure 2-14 shows the timing requirements on the SERCLK and SERDATIN signals. You must
observe these timing requirements for all communications. T

delay

is a specification of the

SCXI-1120.