QSFP-DD 2x100G LR4 - ACTIVE PRODUCTS - Accelight Technologies, Inc.

QSFP-DD 2x100G LR4

Accelight's QSFP-DD transceiver module is designed for use in 200 Gigabit Ethernet links over 10km single mode fiber. The implementation of an 8 channel DML TOSA and ROSA to create a Dual LAN-WDM transceiver. The QSFP-DD 2x100G LAN-WDM transceiver is characterized by an 8x25G NRZ electrical interface and Dual CS connectors and compliant with QSFP-DD MSA.

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Product Details

Product Features

Supports 206Gbps

Single 3.3V Power Supply

Power dissipation < 8.0W

Up to 10km over SMF

QSFP-DD MSA Compliant

8x25G electrical interface

Dual CS connector

Commercial case temperature range of 0°C to 70°C

8*25Gbps DFB-based CWDM transmitter

RoHS compliant

PIN and TIA array on the receiver side

I2C interface with integrated Digital Diagnostic Monitoring
Applications

QSFP-DD 2x100G Ethernet

Data center
Ordering information

Part No.
Data Rate
Fiber
Distance
Interface
Temp.
DDMI
CMIS
AQD200CL4CHL010
200Gbps
SMF
10km
CS
0~+70℃
Yes
CMIS4.0

Performance Specifications

Absolute Maximum Ratings

Parameter	Symbol	Min.	Typical	Max.	Unit
Storage Temperature	Ts	-40			+85
Power Supply Voltage	Vcc	-0.5	3.3	3.6	V
Data Input Voltage – Single Ended		-0.5		Vcc+0.5	V
Data Input Voltage – Differential				0.8	V
Operating Relative Humidity	RH	5		85	%
Receiver Damage Threshold, per Lane	Rxdmg	5.5			dBm

Recommended Operating Conditions

Parameter	Symbol	Min.	Typical	Max.	Unit
Operating case temperature	Tc	0	25	70	°C
Power supply voltage	Vcc	3.135	3.3	3.465	V
Power dissipation	PD			8	W
Electrical Signal Rate per Channel			25.78125		GBd
Optical Signal Rate per Channel			25.78125		GBd
Power Supply Noise				66	mVpp
Receiver Differential Data Output Load		100			Ohm

Figure 1: Transceiver Block Diagram

Figure 2: Application Reference Diagram

Transmitter

As shown in Figure 1, the transmitter path of the transceiver contains an 8x25Gbps 2xCAUI-4 electrical input with Equalization (EQ) block, optical multiplexer, DML laser driver, diagnostic monitors and 8 directly modulated laser.

Receiver

As shown in Figure 1, the receiver path of the transceiver contains eight PIN photodiodes, trans-impedance amplifiers (TIA), de-multiplexer and 8x25G 2xCAUI-4 compliant electrical output blocks. The Rx Output Buffer provides CAUI-4 compliant differential outputs for the high speed electrical interface.

High Speed Electrical Signal Interface

The interface between QSFP-DD module and ASIC/SerDes is shown in Figure 2. The high speed signal lines are internally DC-coupled and the electrical inputs are internally terminated to 100 Ohms differential. All transmitter and receiver electrical channels are compliant to module CAUI-4 specifications per IEEE 802.3bm.

Control Signal Interface

The control signal interface is compliant with QSFP-DD MSA. The following pin is provided to control module or display the module status: ModSeIL, ResetL, LPMode/TxDisable, ModePrsL, IntL/RxLOSL. In addition, there is an industry standard two wire serial interface scaled for 3.3V LVTTL. The definition of control signal interface and the registers of the serial interface memory are defined in the Control Interface & Memory Map section.

Handling and Cleaning

Exposure to current surges and overvoltage events can cause immediate damage to the transceiver module. Observe the precautions for normal operation of electrostatic discharge sensitive equipment; Attention shall also be paid to limiting transceiver module exposure to conditions beyond those specified in the absolute maximum ratings.

Optical connectors include female connectors. These elements will be exposed as long as the cable or port plug is not inserted. At this time, always pay attention to protection.Each module is equipped with a port guard plug to protect the optical port. The protective plug shall always be in place whenever the optical fiber is not inserted. Before inserting the optical fiber, it is recommended to clean the end of the optical fiber connector to avoid contamination of the module optical port due to dirty connector. If contamination occurs, use standard CS port cleaning methods.

General Electrical Characteristics

Parameter	Symbol	Min.	Typical	Max.	Unit
Transceiver Power Consumption				8	W
Transceiver Power Supply Total Current, Total				2560	mA

Reference Points

Test Point	Description
TP0 to TP5	The channel including the transmitter and receiver differential controlled impedance printed circuit board insertion loss and the cable assembly insertion loss.
TP1 to TP4	All cable assembly measurements are to be made between TP1 and TP4 as illustrated in Figure 3. The cable assembly test fixture of Figure 4 or its equivalent, is required for measuring the cable assembly specifications in 802.3bj 92.10 at TP1 and TP4.
TP0 to TP2 TP3 to TP5	A mated connector pair has been included in both the transmitter and receiver specifications defined in 802.3bj 92.8.3 and 92.8.4. The recommended maximum insertion loss from TP0 to TP2 or from TP3 to TP5 including the test fixture is provided in 802.3bj 92.8.3.6

TP2

Unless specified otherwise, all transmitter measurements defined in 802.3bj 92.6 are

made at TP2 utilizing the test fixture specified in 802.3bj 92.11.1.

TP3

Unless specified otherwise, all receiver measurements and tests defined in 802.3bj 92.8.4

are made at TP3 utilizing the test fixture specified in 802.3bj 92.11.1.

Figure 3: IEEE 802.3bj 100GBASE-CR4 link

Figure 4: IEEE 802.3bs CAUI-8 compliance points TP1a, TP4a

Figure 5: IEEE 802.3bm CAUI-4 compliance points TP1, TP4

High Speed Electrical Input Characteristics

Parameter	Test Point	Min.	Typical	Max .	Unit	Conditions
Signaling Rate, Per Lane	TP1		25.78125		GBd	+/- 100 ppm
Differential pk-pk Input Voltage Tolerance	TP1a	900			mV
Differential Return Loss(min)	TP1		Equation(83E-5)		dB	802.3bm
Differential to common mode input return loss (min)	TP1		Equation(83E-6)		dB	802.3bm
Differential termination mismatch	TP1			10	%
Module stressed input test	TP1a
Single-ended voltage tolerance range	TP1a	-0.4		3.3	V
DC common-mode output voltage	TP1	-350		2850	mV
Module stressed input test
Eye width		0.46			UI
Applied pk-pk sinusoidal jitter			Table 88-13			802.3bm
Eye height		95			mV

High Speed Electrical Output Characteristics

Parameter	Test Point	Min.	Typical	Max.	Unit
Signaling Rate, Per Lane(range)	TP4		25.78125 ± 100 ppm		GBd
Differential output voltage	TP4			900	mV
Differential output return loss (Min)
Differential to common mode conversion return loss (min)
Differential termination mismatch
Common mode voltage
Transition Time (20% to 80%)
Eye width
Eye height differential	TP4	228			mV
Vertical eye closure	TP4			5.5	dB

Optical Characteristics

High Speed Optical Transmitter Characteristics

Parameter	Symbol	Min.	Typical	Max.	Unit
Signaling speed per lane	BRAVE		25.78125		Gbps
Data Rate Variation		-100		+100	ppm
Modulation format			NRZ

Lane_0/4 Center Wavelength	λC0	1294.53	1295.56	1296.59	nm
Lane_1/5 Center Wavelength	λC1	1299.02	1300.05	1301.09	nm
Lane_2/6 Center Wavelength	λC2	1303.54	1304.58	1305.63	nm
Lane_3/7 Center Wavelength	λC3	1308.09	1309.14	1310.19	nm
Total Average Output Power	Po			10.5	dBm
Side Mode Suppression Ratio	SMSR	30			dB
Extinction Ratio	ER	4			dB
Average Launch Power each Lane	Peach	-4.3		4.5	dBm
Transmit OMA each Lane	TxOMA	-1.3		4.5	dBm
Launch power in OMA minus TDP, each lane	OMA-TDP	-2.3			dBm
Transmitter and Dispersion Penalty per Lane	TDP			2.2	dB
Average launch power of OFF transmitter				-30	dBm
Optical Return Loss Tolerance				20	dB
Transmitter Reflectance				-12	dB
Transmitter eye mask definition {X1, X2, X3, Y1,Y2, Y3}		{0.25, 0.4, 0.45, 0.25, 0.28, 0.4}

High Speed Optical Receiver Characteristics

Parameter	Symbol	Min.	Typical	Max.	Unit
Signaling Speed per Lane	BRAVE		25.78125		Gbps
Data Rate Variation		-100		100	ppm
Lane_0/4 Center Wavelength	λC0	1294.53	1295.56	1296.59	nm
Lane_1/5 Center Wavelength	λC1	1299.02	1300.05	1301.09	nm
Lane_2/6 Center Wavelength	λC2	1303.54	1304.58	1305.63	nm
Lane_3/7 Center Wavelength	λC3	1308.09	1309.14	1310.19	nm
Damage threshold	Rxdmg	5.5			dBm
Average receive power each lane	Rxpow	-10.6		4.5	dBm
Receive Power (OMA) per Lane	RxOMA			4.5	dBm
Receive Power (OMA) per Lane	RxOMA			4.5	dBm
Unstressed Receiver Sensitivity (OMA) per Lane	Rxsens			-8.6	dBm
Stressed Receiver Sensitivity (OMA) per Lane	RXSRS			-6.8	dBm
Vertical Eye Closure Penalty	VECP	1.8			dB
Stressed J2 Jitter	J2	0.3			UI
Stressed J4 Jitter	J4	0.47			UI
LOS Assert	LOSA	-25			dBm
LOS De-Assert	LOSD			-15	dBm
LOS Hysteresis		0.5			dB
RSSI accuracy		-3		3	dB
Receiver reflectance				-26	dB

QSFPDD Transceiver Electrical Pad Layout

Pin	Logic	Symbol	Description	Plug Sequence	Notes
1		GND	Ground	1	1
2	CML-I	Tx2n	Transmitter Inverted Data Input	3
3	CML-I	Tx2p	Transmitter Non-Inverted Data Input	3
4		GND	Ground	1	1
5	CML-I	Tx4n	Transmitter Inverted Data Input	3
6	CML-I	Tx4p	Transmitter Non-Inverted Data Input	3
7		GND	Ground	1	1
8	LVTTL-I	ModSelL	Module Select	3
9	LVTTL-I	ResetL	Module Reset	3
10		VccRx	+3.3V Power Supply Receiver	2	2
11	LVCMOS- I/O	SCL	Two-wire serial interface clock	3
12	LVCMOS- I/O	SDA	Two-wire serial interface data	3
13		GND	Ground	1	1
14	CML-O	Rx3p	Receiver Non-Inverted Data Output	3
15	CML-O	Rx3n	Receiver Inverted Data Output	3
16		GND	Ground	1	1
17	CML-O	Rx1p	Receiver Non-Inverted Data Output	3
18	CML-O	Rx1n	Receiver Inverted Data Output	3
19		GND	Ground	1	1
20		GND	Ground	1	1
21	CML-O	Rx2n	Receiver Inverted Data Output	3
22	CML-O	Rx2p	Receiver Non-Inverted Data Output	3
23		GND	Ground	1	1
24	CML-O	Rx4n	Receiver Inverted Data Output	3
25	CML-O	Rx4p	eceiver Non-Inverted Data Output	3
26		GND	Ground	1	1
27	LVTTL-O	ModPrsL	Module Present	3
28	LVTTL-O	IntL/ RxLOSL	Interrupt. Optionally configurable as RxLOSL via the management interface (SFF-8636).	3
29		VccTx	+3.3V Power supply transmitter	2	2

30		Vcc1	+3.3V Power supply	2	2
31	LVTTL-I	LPMode/ TxDis	Low Power Mode. Optionally configurable as TxDis via the management interface (SFF-8636).	3
32		GND	Ground	1	1
33	CML-I	Tx3p	Transmitter Non-Inverted Data input	3
34	CML-I	Tx3n	Transmitter Inverted Data Input	3
35		GND	Ground	1	1
36	CML-I	Tx1p	Transmitter Non-Inverted Data Input	3
37	CML-I	Tx1n	Transmitter Inverted Data Input	3
38		GND	Ground	1	1
34	CML-I	Tx3n	Transmitter Inverted Data Input	3
35		GND	Ground	1	1
36	CML-I	Tx1p	Transmitter Non-Inverted Data Input	3
37	CML-I	Tx1n	Transmitter Inverted Data Input	3B
38		GND	Ground	1B	1
39		GND	Ground	1A	1
40	CML-I	Tx6n	Transmitter Inverted Data Input	3A
41	CML-I	Tx6p	Transmitter Non-Inverted Data Input	3A
42		GND	Ground	1A	1
43	CML-I	Tx8n	Transmitter Inverted Data Input	3A
44	CML-I	Tx8p	Transmitter Non-Inverted Data Input	3A
45		GND	Ground	1A	1
46	LVCMOS/CML-I	P/VS4	Programmable/Module Vendor Specific 4	3A	3
47	LVCMOS/CML-I	P/VS4	Programmable/Module Vendor Specific 1	3A	3
48		VccRx1	3.3V Power Supply	2A	2
49	LVCMOS/CML- O	P/VS2	Programmable/Module Vendor Specific 2	3A	3
50	LVCMOS/CML- O	P/VS3	Programmable/Module Vendor Specific 3	3A	3
51		GND	Ground	1A	1
52	CML-O	Rx7p	Receiver Non-Inverted Data Output	3A
53	CML-O	Rx7n	Receiver Inverted Data Output	3A
54		GND	Ground	1A	1
55	CML-O	Rx5p	Receiver Non-Inverted Data Output	3A
56	CML-O	Rx5n	Receiver Inverted Data Output	3A

57		GND	Ground	1A	1
58		GND	Ground	1A	1
59	CML-O	Rx6n	Receiver Inverted Data Output	3A
60	CML-O	Rx6p	Receiver Non-Inverted Data Output	3A
61		GND	Ground	1A	1
62	CML-O	Rx8n	Receiver Inverted Data Output	3A
63	CML-O	Rx8p	Receiver Non-Inverted Data Output	3A
64		GND	Ground	1A	1
65		NC	No Connect	3A	3
66		Reserved	For future use	3A	3
67		VccTx1	3.3V Power Supply	2A	2
68		Vcc2	3.3V Power Supply	2A	2
69	LVCMOS-I	ePPS/Clock	1PPS PTP clock or reference clock input	3A	3
70		GND	Ground	1A	1
71	CML-I	Tx7p	Transmitter Non-Inverted Data Input	3A
72	CML-I	Tx7n	Transmitter Inverted Data Input	3A
73		GND	Ground	1A	1
74	CML-I	Tx5p	Transmitter Non-Inverted Data Input	3A
75	CML-I	Tx5n	Transmitter Inverted Data Input	3A
76		GND	Ground	1A	1
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 them directly to the host board signal-common ground plane.
2: VccRx, VccRx1, Vcc1, Vcc2, VccTx and VccTx1 shall be applied concurrently. Supply requirements defined for the host side of the Host Card Edge Connector are listed in QSFP-DD MSA. For power classes 4 and above the module differential loading of input voltage pads must not result in exceeding contact current limits. Each connector Vcc contact is rated for a maximum current of 1500 mA.
3: All Vendor Specific, Reserved and No Connect pins may be terminated with 50 ohms to ground on the host. Pad 65 (No Connect) shall be left unconnected within the module. Vendor specific and Reserved pads shall have an impedance to GND that is greater than 10 kOhms and less than 100 pF.
4: Plug Sequence specifies the mating sequence of the host connector and module. The sequence is 1A, 2A, 3A, 1B, 2B, 3B. Contact sequence A will make, then break contact with additional QSFP-DD pads. Sequence 1A, 1B will then occur simultaneously, followed by 2A, 2B, followed by 3A, 3B.
5: Full definitions of the P/VSx signals currently under development. On new designs not used P/VSx signals are recommended to be terminated on the host with 10k ohms.
6: ePPS/Clock if not used recommended to be terminated with 50 ohms to ground on the host.

Figure 7: Host Board Power Supply Filter

Control Interface Electrical Specifications

Parameter	Symbol	Min.	Typical	Max.	Unit
SCL and SDA	VOL	0		0.4	V
SCL and SDA	VIL	-0.3		VCC*0.3	V
SCL and SDA	VIH	VCC*0.7		VCC+0.5	V
Capacitance for SCL and SDA I/O signal	Ci			14	pF
Total bus capacitive load for SCL and SDA	Cb			100	pF
Total bus capacitive load for SCL and SDA	Cb			200	pF
LPMode/TxDisable, ResetL, ModSeIL and ePPS/Clock	VIL	-0.3		0.8	V
LPMode/TxDisable, ResetL, ModSeIL and ePPS/Clock	VIH	2		VCC+0.3	V
LPMode, ResetL and ModSeIL	\|lin\|			360	μA
IntL/RxLOSL	VOL	0		0.4	V
IntL/RxLOSL	VOH	VCC-0.5		VCC+0.3	V
ModPrsL	VOL	0		0.4	V
ModPrsL	VOH

Mechanical Specifications

Part No.	Data Rate	Fiber	Distance	Interface	Temp.	DDMI	CMIS
AQD200CL4CHL010	200Gbps	SMF	10km	CS	0~+70℃	Yes	CMIS4.0