DS1875T+ Maxim Integrated Products, DS1875T+ Datasheet - Page 19

DS1875T+

Manufacturer Part Number

DS1875T+

Description

IC SFP CTRLR/TRIPLEXER 38-TQFN

Manufacturer

Maxim Integrated Products

Datasheet

1.DS1875TTR.pdf (92 pages)

Specifications of DS1875T+

Applications

Fiber Optics

Interface

I²C

Voltage - Supply

2.85 V ~ 3.9 V

Package / Case

Mounting Type

Surface Mount

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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quick-trip alarm that is detected by default remains

active until a subsequent comparator sample shows the

condition no longer exists. A second bias-current moni-

tor (BIAS MAX) compares the DS1875’s BIAS DAC’s

code to a digital value stored in the MAX BIAS register.

This comparison is made at every bias-current update

to ensure that a high bias current is quickly detected.

Monitoring functions on the DS1875 include a power-on

analog (POA) V

parators, and ADC channels. This monitoring combined

with the interrupt masks determine if the DS1875 shuts

down its outputs and triggers the TX-F and FETG out-

puts. All the monitoring levels and interrupt masks are

user programmable with the exception of POA, which

trips at a fixed range and is nonmaskable for safety

reasons.

POA holds the DS1875 in reset until V

level (V

with its ADC and compare analog signals with its quick-

trip monitors. Because V

ADC when V

sion greater than the customer-programmable V

ADC limit. This allows a programmable limit to ensure

that the head room requirements of the transceiver are

satisfied during slow power-up. The TX-F and FETG

outputs do not latch until there is a conversion above

the V

TX-F and FETG outputs are asserted when V

below V

more information.

Five quick-trip monitors are provided to detect potential

laser safety issues. These monitor:

1) High Bias Current (HBIAS)

2) Low Transmit Power (LTXP)

3) High Transmit Power (HTXP)

4) Max Output Current (BIAS MAX)

5) MON3 Quick Trip (M3QT)

The high- and low-transmit power quick-trip registers

(HTXP and LTXP) set the thresholds used to compare

against the BMD voltage to determine if the transmit

power is within specification. The HBIAS quick trip com-

pares the MON1 input (generally from the MAX3643

bias monitor output) against its threshold setting to

determine if the present bias current is above specifica-

low alarm, which is cleared by a V

POA

low limit. The POA alarm is nonmaskable. The

> V

. See the Low-Voltage Operation section for

POA

is less than V

Five Quick-Trip Monitors and Alarms

Monitors and Fault Detection

______________________________________________________________________________________

) for the part to accurately measure

comparison, five quick-trip com-

cannot be measured by the

POA

Power-On Analog (POA)

, POA also asserts the

PON Triplexer and SFP Controller

is at a suitable

ADC conver-

Monitors

low

tion. The BIAS MAX quick trip is a digital comparison

that determines if the BIAS DAC indicates that the bias

current is above specification. I

exceed the value set in the MAX BIAS register. When

the DS1875 detects that the bias is at the limit, it sets

the BIAS MAX status bit and clamps the bias current at

the MAX BIAS level. In the closed-loop mode, if the

recalled value from the BIAS LUT is greater than MAX

BIAS then, the update is not done and I

the previous I

the TX-F and FETG outputs through interrupt masks to

allow combinations of these alarms to be used to trigger

these outputs. When FETG is triggered, the DS1875 also

disables the MOD and BIAS outputs. See the BIAS and

MOD Output During Power-Up section for details.

One additional quick trip is used to protect the APD

from overcurrent. MON3P is used to monitor the current

through the APD. When MON3P exceeds a threshold

set by the M3QT DAC register (Table 02h, Register

C3h), the PWM is shut down by blocking SW pulses.

The MON3 comparison is single-ended referenced to

ground. In the case where MON3 is used differentially

and not referenced to ground, this must be considered

when setting the MON3 quick-trip threshold.

Additionally, the D2 pin can be driven either high or low

as determined by INV M3QT and MUX M3QT bits in

Lower Memory, Register 79h. An external switch con-

trolled by pin D2 may be used to clamp the converter’s

output when MON3 quick trip occurs. This external

switch discharges the output voltage much faster than

allowing the load to discharge the rail. The MON3

quick-trip alarm can be latched by enabling M3QT LEN

in Table 02h, Register 89h. The latch is reset by setting

M3QT RESET in Lower Memory, Register 78h. A soft

quick trip is performed by setting SOFT M3QT in Lower

Memory, Register 78h (see Figure 4).

The ADC monitors six channels that measure tempera-

ture (internal temp sensor), V

using an analog multiplexer to measure them round

robin with a single ADC. Each channel has a customer-

programmable full-scale range and offset value that is

factory programmed to default value (see Table 3).

Additionally, MON1–MON4 can right-shift results by up

to 7 bits before the results are compared to alarm

thresholds or read over the I

tomers with specified ADC ranges to calibrate the ADC

full scale to a factor of 1/2

measure small signals. The DS1875 can then right-shift

the results by n bits to maintain the bit weight of their

specification.

BIAS

value. The quick trips are routed to

ADC Monitors and Alarms

their specified range to

C bus. This allows cus-

BIAS

, and MON1–MON4

MON3 Quick Trip

is not allowed to

BIAS

reverts to

DS1875T+ Maxim Integrated Products, DS1875T+ Datasheet - Page 19

DS1875T+

Specifications of DS1875T+

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