Mobile SIM management. Dot Origin. Gemalto - Thales. Gemini RS serial-port smartcard readers Smartcard readers with serial interfaces. Sort order : Name Price Popularity. Internal SAM-slot. Backwards compatible with ACRS which it replaces.
You will not be able to order just yet. Step 6 Turn on power to the router by pressing the power switch to the ON position. This section describes the HWICs and tells how to connect them to a network. The maximum data rate supported is 8 Mbps per port. The maximum data rate supported is kbps per port synchronous. Data rates of up to There is no room for individual LEDs to indicate transmit or receive activity, or clock status.
This section describes the preparation necessary before connecting a Cisco serial HWIC to the network. Ensure that the equipment you are working with is properly grounded. Use the correct cable for your serial HWIC. Six types of smart serial cables are available:. All of these serial cables provide a pin plug at the interface card end.
See Figure Figure 11 Quad Serial Cable. The 8-port and port asynchronous HWICs use an octal cable, consisting of a pin connector on the interface card end and eight RJ45 connectors on the system end. This cable is available in DTE format only. Figure 12 Octal Serial Cable. To connect the serial HWIC to the network, follow these steps:. Step 2 Connect one end of the appropriate serial cable to the connector on the card faceplate. Step 3 Connect the other end or ends of the cable to the appropriate type of equipment.
Step 4 Turn on power to the router. Related documentation is available on Cisco. When providing power to 5V cards from a lower voltage supply, the charge pump operates in constant frequency mode under heavy load, and features Burst Mode operation for power savings when lightly loaded.
The constant frequency operation allows the use of small capacitors. The charge pump is powerful enough to supply the Smart Card at rated current requirements for all 3 V CC voltages. A low dropout linear regulator controls the voltage of the Smart Card. The Smart Card signals are level shifted to the appropriate microcontroller supply voltage which can range from 1. This feature allows true acknowledge data to be returned to the microcontroller interface.
These bidirectional pins also have special accelerating pull-up sources to ensure fast rise times. They sense the edge rate on the pin and compare it to a preset limit. If the limit is exceeded, an additional current source is applied to the pin, thereby accelerating it. Once the pin reaches its local supply level, the acceleration current is disabled.
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