ACS401 データシートの表示（PDF） - Semtech Corporation

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ACS401

Acapella Optical Modem IC

Semtech Corporation 

ERC produces a pulse on detection of each coding error. These

pulses may be accumulated by means of an external electronic

counter.

Please note that ERL and ERC detect coding errors and not data

errors, nevertheless because of the complexity of the coding rules

on the ACS401 the absence of detected errors on these pins will

give a good indication of a high quality link.

LASER/LED Considerations

Since LEDs or LASERs from different suppliers may emit different

wavelengths, it is recommended that the LASERs/LEDs in a

communicating pair of modems are obtained from the same

supplier. Furthermore, the emission spectrum is a function of

temperature, so a temperature difference between the ends of a

link reduces the responsivity of the receiving LASER/LED,

resulting in a reduction in the link budget. Information is given in

the suppliers’ data sheets. The following manufacturers have

components that will be tested with the ACS401 and Acapella will

be glad to assist with contact names and addresses on request:

LED Suppliers

ABB-Hafo (e.g.1A-212ST, 1A-212SMA)

Acapella (e.g.A-ST, A-SMA)

GCA

(e.g.1A-212-ST-05, 1A-212-SM-02)

Honeywell (e.g.HFE4214-013, HFE4404-013)

Duplex Suppliers

GCA

90-0359

Siemens SBM 51214X

Operating Wavelengths

The ACS401 can support any wavelength LED, ELED or LASER,

from 660 nm through to 1500 nm.

Power Supply Decoupling

The ACS401 contains a highly sensitive amplifier, capable of

responding to extremely low current levels. To exploit this

sensitivity it is important to reduce external noise to a low level

compared to the input signal from the LASER/LED. The modem

should have an independent power trace to the point where power

enters the board.

Figure 3. shows the recommended power supply decoupling. The

LASER/LED should be sited very close to the PINN, LAN and LAP

pins. A generous ground plane should be provided, especially

around the sensitive PINN, LAN and LAP pins. The modem

should be protected from EMI/RFI sources in the standard ways.

Link Budgets

The link budget is the difference between the power coupled to the

fiber via the transmit LASER/LED and the power required to

realise the minimum input amplifier current via the receive

LASER/LED/PIN. The link budget is normally specified in dB or

dBm, and represents the maximum attenuation allowed between

communicating LASER/LEDs. The budget is utilised in terms of

the cable length, cable connectors and splices. It usually includes

an operating margin to allow for degradation in LASER/LED

performance. The power coupled to the cable, is a function of the

efficiency of the LASER/LED, the current applied to the

LASER/LED and the type of the fiber optic cable employed.

The conversion current produced by the reverse biased

LASER/LED or PIN is a function of the LASER/LED/PIN efficiency

and the fiber type. The conversion efficiency is measured in terms

of its ability to convert the available optical power to current,

known as the responsivity, given in (A/W). Some examples of link

budgets are given in the tables headed, Link Budget Examples.

Digital Mode

The ACS401 may be used as a controller and data buffer which

allows the device to be used with an external amplifier for non-

fiber applications. Check with Acapella for details.

Data delay and skew

The Full Duplex Delay (FDD) of TxD and control signals XI(1:2)

when using the recommended XTAL frequency of 9.216 MHz

(FDD9.216MHz ) are as follows:

TxD FDD9.216MHz

TxD FDD9.216MHz

= 4 ms (‘standard’mode)

= 8 ms (‘double’ mode)

XI FDD9.216MHz

XI FDD9.216MHz

= 10 ms (‘standard’mode)

= 20 ms (‘double’ mode)

For other XTAL frequencies, the delay is inversely proportional to

the XTAL frequency using the above delays as the constant of

proportionality.

FDDXTAL = (9.216 * 106 / XTAL) * FDD9.216MHz

The synchronous data skew between the main data channels

RxD1, RxD2, RxD3 and RxD4 across the link is zero data-bits.

1 CKC

2 SETB

3 GND

4 XI1

5 TxD3

6 XI2

7 TxD4

8 HBT

9 DCD

10 GND

11 CLK9

12 RxD2

13 RxD1

14 XTI

15 XTO

16 GND

17 GND

18 NC

19 VD+

20 VD+

21 TxCL

22 TxD2

23 ERRL

24 TxD1

25 RxCL

26 NC

27 IC

28 DCDB

29 VD+

30 ERRC

31 RxD4

32 XO2

33 XO1

34 RxD3

10

60

11

59

12

58

13

57

14

56

15

55

16

17

ACAPELLA

54

53

18

19

ACS401

52

51

20

50

21

1-Fiber Modem

49

22

48

23

47

24

46

25

45

26

44

Figure 1. Top view of 68 PLCC package

NC = Not Connected IC = Internally Connected

DM3 68

VD+ 67

DM2 66

DM1 65

DR1 64

DP2 63

DP1 62

NC 61

NC 60

NC 59

TRC 58

IC 57

VA+ 56

LAP 55

LAN 54

PINP 53

PINN 52

CON2 51

CNT 50

AGND 49

CON1 48

VG+ 47

NC 46

NC 45

NC 44

GND 43

DP3 42

GND 41

PORB 40

DP4 39

DR4 38

DR3 37

GND 36

DR2 35

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