Electronics Sales MINK – Comchip

Electronics Sales MINK – Comchip

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Electronics Sales MINK – Comchip article by Peter Liu
USB 3.1/USB Type-C MINK Associates with tagline

Universal Serial Bus (USB) is a standard developed in the mid-1990s to standardize the connection between computers and peripherals, both to communicate and to supply electrical power. It replaced a variety of earlier interfaces such as serial/parallel ports, PS/2, and separate power chargers for portable devices.

There are three connector sizes – standard, mini, and micro, type “A’, “B”, and “AB” connectors and corresponding receptacles, and five data transfer modes summarized in Table 1:

USB Type Throughput Direction Total Capacitance Pin Count
1.X 1.5 Mbit/s (Low speed)
12 Mbit/s (Full speed)
Half Duplex; Not reversible < 30pF 4
2.0 480 Mbit/s (High Speed) Half Duplex; Not reversible < 10pF 4-5
3.0 5 Gbit/s (SuperSpeed) Full Duplex; Not reversible < 1pF 9
3.1/Gen2 10 Gbit/s (SuperSpeed+) Full Duplex; Not reversible < 0.1~0.5pF 9
Type-C 10 Gbit/s (SuperSpeed+) Full Duplex; Reversible < 0.1pF 24

Table 1: USB data transfer modes.

USB 3.1/Gen 2 is essentially USB 3.0 with double the speed, to 10 Gbit/s. It is full duplex and not reversible, so the connector and receptacle has to be aligned in the correct orientation to be inserted. It has a total capacitance of 0.1 ~ 0.5 pF.

USB Type-C is 10 Gbit/s and reversible (similar to Apple’s Lightning) with symmetrical 24 pins so the connector will attach to the receptacle on the first try. The additional pins permit support of data protocols such as DisplayPort 1.3, PCI Express, and Base-t Ethernet using Type C cables. Figure 1 shows the pinout diagram of USB Type-C cable.

USB Type-C’s connector and receptacle are smaller sized (similar to Lightning and Micro-USB) and more durable, withstanding 10,000 insertion/removal cycles. The cable supports a USB power Delivery mode of up to 100 W, which charges smartphones and tablets much faster. Devices that currently accommodate USB Type-C cable are Apple’s 2015 MacBook, Google’s Chromebook Pixel, Nokia’s N1 tablet, smartphones such as OnePlus 2 and Le Superphone, and mobile storage devices by LaCie and SanDisk.

Image of USB Type-C Pinout Diagram

Figure 1: USB Type-C pinout diagram.

Comchip has many low capacitance ESD surge suppressors for USB port protection. Recommended parts for USB 3.0 are in listed in Table 2 and suggested PCB layouts are shown in Figures 2 and 3. Suggested parts and layouts for USB 3.1 are shown in Figures 4 and 5. Recommended parts for Type-C are listed in Table 3 and the suggested flow-through PCB layout is in Figure 6.

USB 2.0 D+, D- (USB 2.0 and 3.0 data lines are combined into one)

Part Number VRWM IR (Max) VC Cj ESD (Contact) Package
CPDQR5V0USP-HF 5 V 1 μA 13 V 0.6 pF ±8 KV 0402
1-Line/Uni
CPDQ5V0USP-HF 5 V 1 μA 13 V 0.6 pF ±8 KV 0402
1-Line/Uni
CPDQC5V0USP-HF 5 V 1 μA 13 V 0.6 pF ±8 KV 0402C
1-Line/Uni
CPDU5V0USP-HF 5 V 1 μA 9.8 V 0.5 pF ±10 KV 0603
1-Line/Uni
CPDUC5V0USP-HF 5 V 1 μA 9.8 V 0.5 pF ±10 KV 0603C
1-Line/Uni
CPDT-5V0UP-HF 5 V 1 μA 12 V 0.6 pF ±10 KV SOT-23
2-Line/Uni

USB 3.0 Tx, Rx

Part Number VRWM IR (Max) VC Cj ESD (Contact) Package
CPDQC5V0CSP-HF 5 V 100 A 15 V 0.3 pF ±8 KV 0402C
1-Line/Bi
CPDQC5V0USP-IPHF 5 V 100 nA 12 V 0.3 pF ±10 KV 0402C
1-Line/Uni
CPDA10R5V0P-HF 5 V 50 nA 9 V 0.25 pF ±18 KV DFN10P
4-Line/Uni

VBUS 5V

Part Number VRWM IR (Max) VC Cj ESD (Contact) Package
CPDQC5V0R-HF 5 V 90 nA 8 V 24 pF ±30 KV 0402C
1-Line/Bi
CPDUR5V0R-HF 5 V 90 nA 8 V 24 pF ±30 KV 0603
1-Line/Bi
CPDUC5V0R-HF 5 V 90 nA 8 V 24 pF ±30 KV 0603C
1-Line/Bi
CPDQR5V0HE-HF 5 V 1 μA 11 V 15 pF ±30 KV 0402
1-Line/Bi
CPDQC5V0HE-HF 5 V 1 μA 11 V 15 pF ±30 KV 0402C
1-Line/Bi
CPDUR5V0HE-HF 5 V 1 μA 11 V 15 pF ±30 KV 0603
1-Line/Bi

Table 2: Recommended parts for USB 3.0.

Image of USB 3.0 suggested PCB layout diagram

Figure 2: USB 3.0 suggested PCB layout diagram using three components.

Image of USB 3.0 suggested PCB layout diagram

Figure 3: USB 3.0 suggested PCB layout diagram using two components.

USB 3.1 Type A has similar ESD requirements to USB 3.0 Type A, so the suggested PCB layouts are the same, except lower capacitance ESD components are recommended. Suggested PCB layouts for USB 3.1 are shown in Figure 4 and 5.

Image of USB 3.1 suggested PCB layout diagram

Figure 4: USB 3.1 suggested PCB layout diagram using three components.

Image of USB 3.1 suggested PCB layout diagram

Figure 5: USB 3.1 suggested PCB layout diagram using two components.

USB Type-C has 10 Gbit/s throughput, so ESD protection is essential considering the potential impact of additional capacitance and inductance on the high-speed differential pairs. Due to the reversible connector design, USB Type-C has increased ESD protection requirement.

In such an instance, a flow-through design of Comchip’s DFN10P package simplifies PCB layout by placing the package on top of the high-speed differential pair, avoiding complicated vias or loops and saving PCB space. Recommended parts for USB Type-C are in listed in Table 3 and the suggested PCB layout is shown in Figure 6.

Part Number VRWM IR (Max) VC Cj ESD (Contact) Package
CPDA10R5V0P-HF 5 V 50 nA 11 V 0.25 pF ±14 KV DFN10P
4-Line/Bi
CPDA10R5V0SP-HF 5 V 50 nA 12 V 0.15 pF ±14 KV DFN10P
4-Line/Bi

Table 3: Recommended parts for USB Type-C.

Image of USB Type-C suggested PCB layout diagram

Figure 6: USB Type-C suggested PCB layout diagram with flow-through design.

 

 

 

 

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