Motorola SSETM 5000 User Manual

6881094C12-A

November 11, 2004

Theory of Operation: VOCON Board

2-27

Side Connector Interface, Logic Level Translation, and Boot Data Path Control

The digital-support IC facilitates the interface to the radio's side connector. Some of the side
connector lines are at 5 V logic levels, so the digital-support IC converts those lines to GPIO voltage
logic levels to interface to the dual-core processor. These lines include the SB9600 bus busy line
LH_BUSY (R242), and the RS 232 CTS (R245).The SB9600 data line uses an external, bi-direc
tional, voltage translation circuit that includes Q304, D302, R328, R329, R330, U303, and C314.

USB Transceiver

The USB transceiver, U302, is capable of transmitting and receiving serial data at a rate of 12
megabits per second. The differential USB data comes from the side connector, through the 33-ohm
resistors R252 and R253 and the isolation switch Q301, and then to the VP and VM pins on U302.
The USB receive interface from the digital-support IC to the dual-core processor is as follows: VP
routed to PA2_USB_VPIN VM, routed to USB_VMI_RXD, and the differential decoded data is output
at the RCV pin and goes to the dual-core processor URTS1 pin.

The USB transmitter is enabled when the SUSPND and OE_EN signals are both driven low by the
dual-core processor. The single-ended data is output from the dual-core processor on the UTXD1
pin and goes to VO_VPO on U302. The data is driven out differentially on the DPOS and DNEG
pins, which go to the side connector. The dual-core processor sends the single-ended zero signal
from pin PC0_USB_VMOUT to the FSE0_VMO pin on U302.

When a USB cable is detected, Q302 pin 2 goes high. This controls the isolation switch Q301 so that
the data that is on those lines are routed to the USB transceiver. If a USB cable is not detected, the
Q302 pin is low and the USB transceiver is isolated. This isolation is done primarily because the
RS232 data lines are 5 V lines, so the switch protects the transceiver since it operates at a lower
voltage, and the USB data lines to the side connector also act as the RS232 lines.

On the VOCON board, the USB transceiver on the digital-support IC is not used. Instead, a discrete
USB transceiver U310 is used. The transceiver is provided with 5 V and 2.9 V. The 5 V powers an
internal 3.3 V voltage regulator on the transceiver, which is used as the voltage for the USB data pins
D+ and D- as well as the VPU pin. The 2.9 V is used by the remaining pins as they interface to the
dual-core processor U401.

One-Wire Support

New options and accessories that attach to the side connector are identified by the dual-core
processor using the One-Wire protocol. The One-Wire pin on the side connector serves as the One-
Wire data pin. This signal is connected to the ONE_WIRE_OPT pin. This pin is connected to the
dual-core processor One-Wire bus ONE_WIRE_UP through an internal isolation switch controlled by
a dual-core processor GPIO line to the digital-support IC ONE_WIRE_EN_X pin. This isolation is
needed to prevent possible contention on the One-Wire bus when a smart battery is attached to the
radio.

These new accessories are to ground, CTS (TP208), of the side connector. When this occurs, the
digital-support IC pin KVL_USB_DET_X is asserted and the dual-core processor detects the
change. The dual-core processor then asserts the ONE_WIRE_EN_X pin on the digital-support IC to
connect the side connector One-Wire line to the dual-core processor One-Wire bus. In the case of
the USB cable, the dual-core processor reads the One-Wire data from the cable and, upon
determining that a USB cable is attached, programs the digital-support IC for USB mode.