Beschrijving

Producteigenschappen

MTP/MP0 optical connector

Single +3.3V power supply

Hot-pluggable QSFP28 MSA form factor

Up to 100m OM4 MMF Distance

4x28G Electrical Serial Interface (CEI-28G-VSR)

AC coupling of CML signals

Low power dissipation(Max:3.5W)

Built in digital diagnostic function

Operating case temperature range:0ºC naar 70ºC

Compliant with 100GBASE-SR4

I2C Communication Interface

Toepassingen

100GBASE-SR4

Infiniband QDR/DDR/SDR

100G Datacom connections

Standards

Compliant with IEEE 802.3ba

Compliant with QSFP28 MSA hardware specifications

Compliant with RoHS

Functional Description

The 100G QSFP28 SR4 optical transceiver integrates the transmit and receive path onto one module. Het

converts parallel electrical input signals into parallel optical signals, by a driven Vertical Cavity Surface Emitting

Laser (VCSEL) array. The transmitter module accepts electrical input signals compatible with Common Mode

Logic (CML) levels. All input data signals are differential and internally terminated. The receiver module converts

parallel optical input signals via a photo detector array into parallel electrical output signals. The reCML) levels.

All data signals are differential and support a data rates up to 27.9525Gb/s per channel.ceiver module outputs

electrical signals are also voltage compatible with Common Mode LogicOn This module features a hot-pluggable

electrical interface, low power consumption, and 2-wire serial interface.

Absolute Maximum Ratings

Parameter	Symbol	Min.	Max.	Unit	Opmerking
Supply Voltage	Vcc	-0.5	3.6	V
Storage Temperature	T_S	-40	85	°C
Relative Humidity	R_H	0	85	%
Rx Damage Threshold,per Lane	PRdmg	5.5		dBm

Opmerking: Stress in excess of the maximum absolute ratings can cause permanent damage to the transceiver.

Recommended Operating Conditions

Parameter	Symbol	Min	Typ	Max	Units	Opmerking
Operating Case Temperature	TC	0	–	+70	°C
Power Supply Voltage	VCC	3.14	3.3	3.47	V
Data rate			103.125	112	Gb/s
Link Distance (OM3)				70	M
Link Distance (OM4)				100	M

Electrical Characteristics (Top=0~70ºC, Vcc=3.14~3.47V)

(Tested under recommended operating conditions,unless otherwise noted)

Parameter	Symbol	Min	Typ	Max	Unit	Notes
Transmitter
Signaling rate per lane	DRPL	25.78125 ± 100 ppm			Gb/s
Differential pk-pk input voltage tolerance	Vin,dpp			900	mV
Single-ended voltage tolerance	Vin,pp	-0.35		+3.3	V
Module stress input test		Per IEEE 802.3bm
Receiver
Signaling rate per lane	DRPL	25.78125 ± 100 ppm			Gb/s
Differential data output swing	Vout,pp	400		800	mV
Eye width	Ew	0.57			UI
Vertical eye closure	VEC	5.5			dB
Differential termination mismatch	T_M			10	%
Transition time, 20% naar 80%	Tr,Tf	12			ps

Optical Characteristics (Top=0~70ºC, Vcc=3.14~3.47V)

(Tested under recommended operating conditions,unless otherwise noted)

Parameter	Symbol	Unit	Min	Typ	Max	Notes
Transmitter
Signaling rate, each lane	DRpl	Gb/s	25.78125 ±100 ppm			1
Center Wavelengthe	λ	nm	840	850	860
RMS Spectral Width		nm		0.6
Average launch power, each lane	Pavg	dBm	-8.4		2.4
Optical modulation amplitude, each lane (OMA)	OMA	dBm	-6.4		3
Extinction ratio	ER	dB	2
Average Launch Power of OFF Transmitter, per Lane	RIN	dBm			-30
Encircled Flux	FLX	dBm	>86% at 19 een

			<30% at 4.5 een
Optical return loss tolerance		dB		12
Transmitter eye mask {X1, X2, X3, Y1, Y2, Y3}			{0.3,0.38,0.45,0.35,0.41,0.5}		2
Receiver
Receive Rate for Each Lane	DRpl	Gb/s	25.78125 ±100 ppm		3
Four Lane Wavelength Range	λ	nm	840	860
Overload Input Optical Power	Pmax	dBm	3.4
Average Receive Power for Each Lane	Pin	dBm	-10.3	2.4	4
Receiver Sensitivity(OMA)per lane	Psens	dBm		-5.2
Recevier Reflectance	Rfl	dB		-12
Receiver Eye MaskDefinition {X1, X2, X3, Y1, Y2,Y3}		{0.28,0.5,0.5,0.33,0.33,0.4}			5
Los De-Assert	Pd	dBm		-13
Los Assert	Pa	dBm	-30
Loss Hysteresis	Pd-Pa	dBm	0.5

Notes:

Transmitter consists van 4 lasers operating at A maximum speed van 25.78125Gb/s ±100ppm each.
Hit Ratio 1.5 x 10-3 hits/sample.
Receiver consists van 4 photodetectors operating at A maximum speed van 25.78125Gb/s ±100ppm each.
Minimum value is informative only En not the principal indicator van signal strength.
Hit Ratio 5 x 10-5 hits/samples

Pin

Naam

Logic

Beschrijving

GND

Ground

Tx2n

CML-I

Transmitter Inverted Data Input

Tx2p

CML-I

Transmitter Non-Inverted Data Input

GND

Ground

Tx4n

CML-I

Transmitter Inverted Data Input

Tx4p

CML-I

Transmitter Non-Inverted Data Input

7	GND		Ground	1
8	ModSelL	LVTTL-I	Module Select	3
9	ResetL	LVTTL-I	Module Reset	4
10	Vcc Rx		+3.3V Power Supply Receiver	2
11	SCL	LVCMOS	2-wire serial interface clock	5
12	SDA	LVCMOS	2-wire serial interface data	5
13	GND		Ground	1
14	Rx3p	CML-O	Receiver Non-Inverted Data Output	9
15	Rx3n	CML-O	Receiver Inverted Data Output	9
16	GND		Ground	1
17	Rx1p	CML-O	Receiver Non-Inverted Data Output	9
18	Rx1n	CML-O	Receiver Inverted Data Output	9
19	GND		Ground	1
20	GND		Ground	1
21	Rx2n	CML-O	Receiver Inverted Data Output	9
22	Rx2p	CML-O	Receiver Non-Inverted Data Output	9
23	GND		Ground	1
24	Rx4n	CML-O	Receiver Inverted Data Output	9
25	Rx4p	CML-O	Receiver Non-Inverted Data Output	9
26	GND		Ground	1
27	ModPrsL	LVTTL-O	Module Present	6
28	IntL	LVTTL-O	Interrupt	7
29	Vcc Tx		+3.3V Power supply transmitter	2
30	Vcc1		+3.3V Power supply	2
31	LPMode	LVTTL-I	Low Power Mode	8
32	GND		Ground	1
33	Tx3p	CML-I	Transmitter Non-Inverted Data Input	10
34	Tx3n	CML-I	Transmitter Inverted Data Input	10
35	GND		Ground	1
36	Tx1p	CML-I	Transmitter Non-Inverted Data
37	Tx1n	CML-I	Transmitter Inverted Data Input	10
38	GND		Ground	1

Notes:

1: GND is the symbol for signal and supply (power) common for the module. All are common within the module and all module voltages are referenced to this potential unless otherwise noted. Connect these directly to the host board signal-common ground plane.

2: Vcc Rx, Vcc1 and Vcc Tx shall be applied concurrently. Vcc Rx Vcc1 and Vcc Tx may be internally connected within the module in any combination. The connector pins are each rated for a maximum current of 1000 mA. Recommended host board power supply filtering is shown below .

3: The ModSelL is an input pin. When held low by the host, the module responds to 2-wire serial communication commands. The ModSelL allows the use of multiple modules on a single 2-wire interface bus. When the ModSelL is “High”, the module shall not respond to or acknowledge any
2-wire interface communication from the host. ModSelL signal input node shall be biased to the “High” state in the module. In order to avoid conflicts, the host system shall not attempt 2-wire interface communications within the ModSelL de-assert time after any modules are deselected. Similarly, the host shall wait at least for the period of the ModSelL assert time before communicating with the newly selected module. The assertion and de-asserting periods of different modules may overlap as long as the above timing requirements are met.
4: The ResetL pin shall be pulled to Vcc in the module. A low level on the ResetL pin for longer than the minimum pulse length (t_Reset_init) initiates a complete module reset, returning all user module settings to their default state. Module Reset Assert Time (t_init) starts on the rising edge after the low level on the ResetL pin is released. During the execution of a reset (t_init) the host shall disregard all status bits until the module indicates a completion of the reset interrupt. The module indicates this by asserting “low” an IntL signal with the Data_Not_Ready bit negated.
Note that on power up (including hot insertion) the module should post this completion of reset interrupt without requiring a reset.

5: Low speed signaling other than SCL and SDA is based on Low Voltage TTL (LVTTL) operating at Vcc. Vcc refers to the generic supply voltages of VccTx, VccRx, Vcc_host or Vcc1.
Hosts shall use a pull-up resistor connected to Vcc_host on each of the 2-wire interface SCL (clock), SDA (data), and all low speed status outputs. The SCL and SDA is a hot plug interface that may support a bus topology.

6: ModPrsL is pulled up to Vcc_Host on the host board and grounded in the module. The ModPrsL is asserted “Laag” when inserted and deasserted “High” when the module is physically absent from the host connector.
7: IntL is an output pin. When IntL is “Laag”, it indicates a possible module operational fault or a status critical to the host system. The host identifies the source of the interrupt using the 2-wire serial interface. The IntL pin is an open collector output and shall be pulled to host supply voltage on the host board. The INTL pin is deasserted “High” after completion of reset, when byte 2 bit 0 (Data Not Ready) is read with a value of ‘0’ and the flag field is read (see SFF-8636).
8: The LPMode pin shall be pulled up to Vcc in the module. The pin is a hardware control

used to put modules into a low power mode when high. By using the LPMode pin and a combination of the Power_override, Power_set and High_Power_Class_Enable software control bits (Address A0h, byte 93 bits 0,1,2), the host controls how much power a module can dissipate.

9: Rx(n)(p/n) are module receiver data outputs. Rx(n)(p/n) are AC-coupled 100 Ohm differential lines that should be terminated with 100 Ohm differentially at the Host ASIC(SerDes). The AC coupling is inside the module and not required on the Host board. For operation at 28 Gb/s the relevant standards (e.g., OIF CEI v3.1) define the signal requirements on the high-speed differential lines. For operation at lower rates, refer to the relevant standards.
Opmerking: Due to the possibility of insertion of legacy QSFP and QSFP+ modules into a host

designed for higher speed operation, it is recommended that the damage threshold of the host input be at least 1600 mV peak to peak differential. Output squelch for loss of optical input signal, hereafter Rx Squelch, is required and shall function as follows. In the event of the optical signal on any channel becoming equal to or less than the level required to assert LOS, then the receiver data output for that channel shall be squelched or disabled. In the squelched or disabled state output impedance levels are maintained while the differential voltage swing shall be less than 50 mVpp. In normal operation the default case has Rx Squelch active. Rx Squelch can be deactivated using Rx Squelch Disable through the 2-wire serial interface. Rx Squelch Disable is an optional function. For specific details refer to SFF-8636.
10: Tx(n)(p/n) are module transmitter data inputs. They are AC-coupled 100 Ohm differential lines with 100 Ohm differential terminations inside the module. The AC coupling is inside the module and not required on the Host board. For operation at 28 Gb/s the relevant standards (e.g., OIF CEI v3.1) define the signal requirements on the high-speed differential lines. For operation at lower rates, refer to the relevant standards. Due to the possibility of insertion of modules into a host designed for lower speed operation, the damage threshold of the module input shall be at least 1600 mV peak naar peak differential. Output squelch, hereafter Tx Squelch, for loss van input signal, hereafter Tx LOS, is an optional function. Where implemented it shall function as follows. In the event of the differential, peak-to-peak electrical signal on any channel becomes less than 50 mVpp, then the transmitter optical output for that channel shall be squelched or disabled and the associated TxLOS flag set. Where squelched, the transmitter OMA shall be less than or equal to -26 dBm and when disabled the transmitter power shall be less than or equal to -30 dBm. For applications, e.g. Ethernet, where the transmitter off condition is defined in terms of average power, disabling the transmitter is recommended and for applications, e.g. InfiniBand, where the transmitter off condition is defined in terms of OMA, squelching the transmitter is recommended. In module operation, where Tx Squelch is implemented, the default case has Tx Squelch active. Tx Squelch can be deactivated using Tx Squelch Disable through the 2-wire serial interface. Tx Squelch Disable is an optional function. For specific details refer to SFF- 8636.

Lane Assignment

	Fiber	Lane
	1	RX0
	2	RX1
	3	RX2
	4	RX3
	5678	Not used
	9	TX3
	10	TX2
	11	TX1
	12	TX0

Ordering Information

Part Number	Beschrijving
GFC-OLSQ85TXM-CDS1	QSFP28 SR4 100m OM4, 0~70ºC, with Digital Diagnostic Monitor

RoHS Compliant 100GB/S Qsfp28 Sr4 100m Optical SFP Transceiver

Beschrijving

Recommended Operating Conditions

(Tested under recommended operating conditions,unless otherwise noted)

(Tested under recommended operating conditions,unless otherwise noted)

Notes:

Notes:

Lane Assignment