Agilent Technologies HDMP-3001 User Manual

112

8.3 Microprocessor Bus Timing Table

Table 30. Timing of microprocessor bus

Parameter

Description

Min (ns)

Max (ns)

t

1

CS_N active to RDYB driven to inactive state

0

15

t

2

CS_N, WRB and RDB valid to A and D captured

90

270

t

3

1

CS_N, WRB and RDB valid to RDYB active

140

1

220

1

t

4

BUSMODE 0: WRB inactive to RDYB inactive

0

15

BUSMODE 1: RDB inactive to RDYB inactive

t

5

CS_N inactive to RDYB in high impedance state

0

15

t

6

CS_N, WRB and RDB valid to GPIO outputs updated (when the

250

370

GPIOs are the target of the write cycle)

t

7

CS_N, WRB and RDB valid to A captured

90

270

t

8

CS_N, WRB and RDB valid to GPIO inputs captured (when the

300

520

GPIOs are the target of the read cycle)

t

9

CS_N, WRB and RDB valid to D valid

600

750

t

10

1

D valid to RDYB active

50

1

60

1

t

11

CS_N, WRB and RDB valid to RDYB active

650

850

t

12

RDB inactive to D in high impedance state

0

15

8.4 Line Interface Receive and Transmit Timing

Label

Parameter

Min

Max

Units

TX_SONETCLK

TX_SONETCLK frequency

19.44-20ppm

19.44+20ppm

MHz

t

HTDFC

TX_DATA hold time

1

ns

t

VTDFC

TX_DATA transition from TX_CLK high

15

ns

t

HFOFC

TX_FRAME_SFP hold time

1

ns

t

VFOFC

TX_FRAME_SFP transition from TX_CLK high

15

ns

Figure 31. Line Interface Transmit Timing

Note 1: RDYB is re-clocked twice by the microprocessor clock in addition to the timing shown. This adds an additional delay of

between one and two microprocessor clock cycles.

TX_SONETCLK

TX_DATA[7:0]

TX_FRAME_SFP

t

HTDFC

t

HFOFC

t

VFOFC

t

VTDFC