Jtag Clock Supply; Clock Supply For Phys And Ethernet Macs; Reset Logic Of The Ertec 200; Poweron Reset - Siemens ERTEC200 Manual

5.1.2

JTAG Clock Supply

The clock supply for the JTAG interface is implemented using the JTAG_CLK pin. The frequency range is between 0
and 10 MHz. The boundary scan and the ICE macro cell of the ARM946E-S are enabled via the JTAG interface.
5.1.3

Clock Supply for PHYs and Ethernet MACs

Both Ethernet MACs are connected to the integrated PHYs via the MII interface. The clock supply of the PHYs takes
place via the internal 25MHz clock CLKP_A. From this the PHYs generate the clock signals RX_CLK and TX_CLK,
which are necessary for the Ethernet MACs.
Instead of the internal PHYs, external PHYs can also be connected to the ERTEC 200. In this case, the connections of
the MII interface of the MACs on the LBU interface must be made available.
The clock can be supplied to the external PHYs via the output pin REF_CLK (25MHz clock).
The output pin can be enabled/disabled with the configuration pin CONFIG1:
CONFIG1 = 0
CONFIG1 = 1
When external PHYs are used or to debug the Ethernet interfaces, the MII interface signals are made available at output
pins of the LBU interface. In both cases, the LBU interface is no longer available for connecting an external host
processor.
Selection of the MII interface signals on LBU pins takes place via configuration pins:
CONFIG[6,5,2] = 111b
CONFIG[6,5,2] = 011b

Figure 10: Clock Supply of Ethernet Interface

5.2

Reset Logic of the ERTEC 200

The reset logic resets the entire circuitry of the ERTEC 200.
The reset system of the ERTEC 200 is enabled by the following events:
•
Hardware reset via external RESET_N pin
•
Software reset via XRES_SOFT bit in the RES_CTRL_REG system control register
•
Watchdog reset via watchdog timer overflow
The triggering reset event can be read out in the RES_STAT_REG system control register.
5.2.1

PowerOn reset

The external hardware reset circuitry is connected at the RESET_N pin of the ERTEC 200. Activating the hardware res
causes an internal reset of the entire circuitry including the clock system of the ERTEC 200 and saves the BOOT and
CONFIG pins to the internal registers. The hardware reset must be present steadily for at least 35 µs (see figure below).
Afterwards, the PLL powers up within t
time, and the clock system is not switched in until the end of the startup phase. Communication from the debugger via
the JTAG interface is not possible during this time. The following figure shows the power-up phase of the PLL after a
reset.
Copyright © Siemens AG 2007. All rights reserved.
Technical data subject to change
Clock 25 MHz is enabled at output REF_CLK
Clock 25 MHz is disabled at output REF_CLK
Connection of external PHYs
MII interface signals in debug mode
ERTEC200
Ether- Ether-
net port net port
Buffer Buffer
MII MII
PHY0 PHY1
(MII) (MII)
645 µs. In the ERTEC 200, the PowerOn reset phase is increased for this
Lock =
MII Mode
CLKP_A
(25 MHz)
65
et
ERTEC 200 Manual
Version 1.1.0