ComLink™ Series CY2LL843
High-drive Two-Channel LVDS Repeater/Mux
Features
• • • • • • • • • ANSI TIA/EIA-644-1995-compliant Designed for data rates to > 700 Mbs = (350 MHz) Single 2 × 2 with high-drive output drivers Low -voltage differential signaling with output voltages of ± 350 mV into 50-ohm load version (Bus LVDS) Single 3.3V supply Accepts ± 350-mV differential inputs Output Drivers are high-impedance when disabled or when VDD ≤1.5V 16-pin SOIC/TSSOP packages Industrial version available achieve signaling rates of 700Mbs. The receiver outputs can be switched to either or both drivers through the multiplexer control signals S0/S1. This provides flexibility in application for either a splitter or router configuration with a single device. The Cypress CY2LL843 are configured as a single two-channel repeater/Mux. The LVDS standard provides a minimum differential output voltage of 247 mV into a 50-ohm load and receipt of as little as 100 mV signals with up to 1V of DC offset between transmitter and receiver. The Cypress CY2LL843 doubles the output drive current to achieve BusLVDS signaling levels with a faster rise/fall times into 50-ohm load. A doubly terminated BusLVDS line enables multipoint configurations. Designed for both point to point based-band multi-point data transmission over controlled impedance lines.
Description
The Cypress CY2LL843 are differential line drivers and receivers that utilize Low Voltage Signaling or LVDS, to
Block Diagram
Pin Configuration
VDD
1DE
1A 1B 2A 2B
1Y 1Z 2Y 2Z
1B 1A
GND
S0
S1
CY2LL843
2DE
S0 1DE S1 2A 2B GND
1 2 3 4 5 6 7 8
16 15 14 13 12 11 10 9
VDD VDD 1Y 1Z 2DE 2Z 2Y GND
16 pin SOIC/TSSOP
Cypress Semiconductor Corporation Document #: 38-07066 Rev. OBS
•
3901 North First Street
•
San Jose
•
CA 95134 • 408-943-2600 Revised December 02, 2004
ComLink™ Series CY2LL843
Pin Description
Pin Number 1,2 3 4 5 6,7 8,9 10,11 12 14,13 15,16 Pin Name 1B, 1A S0 1DE S1 2A, 2B Differential Input Channel 1 Function Select 0 Data Enable Channel 1 Function Select 1 Differential Input Channel 2 Ground Differential Output Channel 2 Data Enable Channel 2 Differential Output Channel 1 Supply Voltage Pin Description
GND
2Y, 2Z 2DE IY, 1Z
VDD
Input
Table 1. Mux Function Table Output[[1]] S1 0 0 1 1 1Y/1Z 1A/1B 2A/2B 1A/1B 2A/2B 2Y/2Z 1A/1B 2A/2B 2A/2B 1A/1B Splitter A Splitter B Pass-thru Router Cross Point Router Function S0 0 1 0 1
Table 2. Absolute Maximum Rating Over Operating Free-Air Temperature[[2]] Supply Voltage Range, VDD(1) Voltage Range (DE,S0,S1) Input Voltage Range, VIN (A or B) ESD (All pins) Storage Temperature Range Table 3. Recommended Operating Conditions[3] Parameter VDD VIH VIL VID VIC TA Supply Voltage High Level Input Voltage Low Level Input Voltage Magnitude of Differential Input Voltage Common Mode Input Voltage Operating Free Air Temperature ( see Figure 11,Figure 12, Figure 13) (S0,S1,1DE,2DE) (S0,S1,1DE,2DE) 0.1 VID/2 –40 Description Min. 3 2 0.8 0.6 2.4 – (VID/2) VDD – 0.8 85 °C Typ. 3.3 Max. 3.6 Unit V –0.5V to 4V –0.5V to 6.0V –0.5V to VDD + 0.5V Class 3, A: 2KV, B: 500V –65°C to 150°C
Notes: 1. See Figure 1. 2. Stresses greater than those listed under absolute maximum ratings may cause permanent damage to the device. This is intended to be a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operation sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability. 3. Multiple Supplies: The voltage on any input or I/O pin cannot exceed the power pin during power-up. Power supply sequencing is NOT required
Document #: 38-07066 Rev. OBS
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ComLink™ Series CY2LL843
Table 4. Receiver Electrical Characteristics Over Recommended Operating Conditions Parameter VITH+ VITHII II II (Off) Description Positive-going Differential Input Voltage Threshold Negative-going Differential Input Voltage Threshold Input Current ( A Inputs) Input Current (B Inputs) Power Off Current (A or B Inputs) Test Conditions VCM = 1.2V VCM = 1.2V VI = 0V VI = 2.4V VI = 0.8V VI = 2.4V VDD = 0V 0.1 0.5 –100 –0.5 –10 –10 10 10 10 Min. Typ. Max. 100 Unit mV mV uA uA uA uA uA
Table 5. Receiver Electrical Characteristics Over Recommended Operating Conditions Parameter VOD ~VOD VOC(SS) ~VOC(SS) VOC(PP) ICC Description Differential Output Voltage Swing Change in differential Output Voltage Swing between logic states Steady State Common-mode output voltage Change in Steady State Common-mode output between logic states Peak to Peak Common-mode output voltage Supply Current No load f = 100 MHz RL = 50 ohm, F = 100 MHz Both Channels Disabled IH IIL IOS IOZ Cin High Level Input Current Low Level Input Current Short Circuit Current High Impedance Output Current Input Capacitance Control Input Capacitance S0,S1,DE S0,S1,DE VIH = 5V VIL = 0.8V VOY or V0Z = 0V VOD = 0V VOD = 60mV VO= 0V or VDD 1A, 1B, 2A, 2B S0, S1, 1DE, 2DE 0.1 0.1 3 8 20 5 20 20 1 1 pF pF uA Test Conditions RL = 50 Ohm See Figure 11, Figures [15]–[19] See Figure 12 Min. 247 -50 1.125 -50 3 Typ. 340 Max. 454 50 1.375 50 Unit mV mV V mV
150 30 35 25
mV mA mA mA uA uA mA
Table 6. Differential Receiver to Driver Switching Characteristics Over Recommended Operating Conditions [[5]] Parameter TPLH TPHL Tsk(p) Tr Description Differential Propagation delay, High to Low Pulse Skew ( TPHL–TPLH) Transition Low to High Test Conditions Min. Typ.[[4]] 4 4 0.2 800 800 1500 1500 Max. 6 6 Unit nS nS nS pS pS Differential Propagation delay, Low to High CL = 10 pF (see Figure 14)
Tf Transition High to Low Notes: 4. All typical values are measured at 25°C with a 3.3V supply. 5. These parameters are measured over supply voltage and temperature ranges recommended for the device.
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ComLink™ Series CY2LL843
Table 6. Differential Receiver to Driver Switching Characteristics Over Recommended Operating Conditions (continued)[[5]] TPHZ TPLZ TPZH TPZL TPHL_skR1_Dx TPLH_skR1_Dx TPPHL_skR2_Dx TPLH_skR2_Dx DJ Propagation delay, High level to High impedance output Propagation delay, Low level to High impedance output Propagation delay, high impedance to High level output Propagation delay, high impedance to Low level output Channel to Channel skew-receiver 1 to Any mux related drivers Channel to Channel skew-receiver 1 to Any mux related drivers Channel to Channel skew-receiver 2 to Any mux related drivers Channel to Channel skew-receiver 2 to Any mux related drivers Deterministic Jitter (100MHz, 25°C,
VID =0.4V, S0, S1 = 0)
(see Figure 14)
4 4.3 3 2 95 95 95 95
10 10 10 10
nS nS nS nS pS pS pS pS pS
(see Figure 7) PRBS-Differential
95
Table 7. High Frequency Parametrics Parameter Fmax Description Maximum frequency VDD = 3.3V Test Conditions 50% duty cycle tW(50–50) Standard Load Circuit.
Router O ptions
S0/S1 1A/1B
Min.
Typ.
Max. 400
Unit MHz
Splitter O ptions
S0/S1 1Y/1Z
1A/1B
1Y/1Z
Cross Point Router
Splitter A
2A/2B 2Y/2Z
2A/2B
2Y/2Z
1A/1B
1Y/1Z
2A/2B
Pass Thru Router
1A/1B
1Y/1Z
Splitter B
2A/2B 2Y/2Z S0/S1
2Y/2Z
S0/S1
Figure 1. Two-channel Cross Point Switch/Mux
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ComLink™ Series CY2LL843
Dynamic IDD CY 2LL843C VID=0.4, VIC=1.2V S0, S1=00 Temp = 25°C
45.00 43.00 41.00 39.00 Idd (mA) Idd (mA) 37.00 35.00 33.00 31.00 29.00 27.00 25.00 50 100 150 200 250 300 350 400 Fin (MH z) Vdd=3.60V Vdd=3.30V Vdd=3.00V 45.00 43.00 41.00 39.00 37.00 35.00 33.00 31.00 29.00 27.00 25.00 50 100 150 200 250 300 350 400 Fin (MH z) Vdd=3.60V Vdd=3.30V Vdd=3.00V
D ynamic IDD C 2LL843C Y VID=0.4, VIC =1.2V S0, S1=01 Temp = 25°C
Figure 2. Dynamic IDD vs. Frequency 25 C
D ynam ID C 2LL843C ic D Y VID =0.4, VIC =1.2V S0, S1=00 Tem =85°C p
45.00 43.00 41.00 39.00 Idd (mA) 37.00 35.00 33.00 31.00 29.00 27.00 25.00 50 100 150 200 250 300 Vdd=3.60V Vdd=3.30V Vdd=3.00V 25.00 50 30.00 Vdd=3.60V Vdd=3.30V Vdd=3.00V 350 400 100 150 200 250 300 350 400 Idd (mA) 40.00 45.00 50.00
D ynam ID C 2LL843C ic D Y VID =0.4, VIC =1.2V S0, S1=01 Tem =85°C p
35.00
F (MH in z)
F (MH in z)
Figure 3. Dynamic IDD vs. Frequency 85 C
Document #: 38-07066 Rev. OBS
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ComLink™ Series CY2LL843
V DD=3.30V , Te m p = 25 C 0.500 0.300 0.200 0.100 20 120 220 Fr e q (M Hz) 1Y 1Z 2Y 2Z 320
VDD=3.30V, Temp = 85 C
Vod (V) 0.500 0.300 0.100 20 120 220 320 Fre q (MHz) 1Y 1Z 2Y 2Z
Vod (V)
0.400
Figure 4. VOD vs. Frequency
VOC(ss) [VOC(pp)