Configuration
Jumper J1 connects the reset line between the emulation device and the target. By default J1 is populated.
Jumpers J2 and J3 select external clock source (XOSC) for the emulation device. Per default, both jumpers are set to position 1-2, which yields the external clock (XOSC) source being used from the target.
If an oscillator in the target is not an option and the target crystal doesn’t oscillate in conjunction with the emulation adapter, the emulation adapter can also provide the external clock (XOSC) source by setting jumpers J2 and J3 in position 2-3. In this case, a crystal circuit must be built on the emulation adapter.
Note that the Emulation Adapter may not operate when crystal circuit is used in the target. Typical design guideline is that the crystal should be as close as possible to the microcontroller. It can happen that the target crystal does not oscillate in conjunction with the Emulation Adapter since clock lines (XTAL, EXTAL) between the target crystal and the emulation device on the Emulation Adapter become too long, inevitably too much affecting the impedance of the crystal circuit. If a “standalone” oscillator is used instead of the crystal circuit, no problems are expected. |
The crystal packed separately in the antistatic bag comes along the Emulation Adapter. It can be used to feed an external clock source (XOSC) to the emulation device by inserting the crystal into the Q1 socket. If a different clock frequency is required, use suitable crystal and insert it into the Q1 socket. The emulation adapters of revision A5 or lower were delivered with a 40 MHz crystal, while the adapters of revision A6 or higher are delivered with a 20 MHz crystal. |
Crystal Q1 is located in the corner of the emulation adapter, next to the 38-pin Mictor connector P1 and per default not populated.
Capacitors C37 and C38, for which pads are provided on the emulation adapter PCB, are not populated since the microcontroller provides already the internal load capacitors for 20MHz/40MHz crystal oscillator operation. |
Emulation adapters of revision A3 or lower had capacitors C37 and C38 populated with 10p. |
Real target microcontroller in the QFP package provides an exposed GND pad in the middle of the microcontroller at the bottom side of the package. This provides GND connection between the microcontroller and the target. |
In case of the emulation adapter usage, the solder part (IA100TQ-SOLDER or IA64ATQ-SOLDER) is soldered instead of the microcontroller. Note that the available solder parts at the introduction of this emulation adapter, did not provide support for the exposed GND pad. For this reason, user must ensure replacement GND connection between the emulation adapter and the target using a dedicated GND wire. Without this connection, the system will not work. Use provided GND wire which comes along the emulation adapter and plug it to the pin J6 (see picture above) on the emulation adapter. Connect the other side to the ground potential on the target - as close as possible to the microcontroller respectively solder part being soldered instead of the microcontroller. This connection must be quality and reliable otherwise debugging and tracing over the Nexus trace port may not work. Alternatively, GND connection can be also established over the J4 ground bridge.
EA Power supply is configured via the unshrouded 26-pin 2.54 mm header (P2).
Signal direction |
Signal |
Pin |
Pin |
Signal |
Signal direction |
---|---|---|---|---|---|
Not connected |
NC |
1 |
2 |
NC |
Not connected |
Target |
VDD_HV_OSC |
3 |
4 |
CVDD_HV_OSC |
Emulation device |
Target |
VDD_HV_ADV_S |
5 |
6 |
CVDD_HV_ADV_S |
Emulation device |
Target |
VDD_HV_ADR_C |
7 |
8 |
CVDD_HV_ADR_C |
Emulation device |
Target |
VDD_HV_IO_MAIN |
9 |
10 |
CVDD_HV_IO_MAIN |
Emulation device |
Target |
VDD_HV_FLA |
11 |
12 |
CVDD_HV_FLA |
Emulation device |
Target |
VDD_HV_IO_FLEX |
13 |
14 |
CVDD_HV_IO_FLEX |
Emulation device |
Not connected |
NC |
15 |
16 |
NC |
Not connected |
Not connected |
NC |
17 |
18 |
NC |
Not connected |
Not connected |
NC |
19 |
20 |
NC |
Not connected |
Ground |
GND |
21 |
22 |
GND |
Ground |
Ground |
GND |
23 |
24 |
GND |
Ground |
Ground |
GND |
25 |
26 |
KEY |
|
P2 Signal description
Refer to the microcontroller user’s manual for more details which power supply designation in the above table belongs to which power supply.
By default, all jumpers are set and connect target power supply coming from the target to the microcontroller residing on the Emulation Adapter. In principle, pins 3-4, 5-6, 7-8, 9-10, 11-12 and 13-14 must be bridged only but for the convenience and ease of use all jumpers are set, except for pins 25-26. Pin 26 is the polarizer key preventing incorrect connection of the IEA-PS power supply, when being connected.
If a different power source is to be used (e.g., in case of a standalone operation), all jumpers must be removed and power source must be applied to:
•CVDD_HV_OSC (pin 4), •CVDD_HV_ADV (pin 6), •CVDD_HV_ADR_S (pin 8), •CVDD_HV_IO_MAIN (pin 10), |
•CVDD_HV_FLA (pin 12), •CVDD_HV_IO_FLEX (pin 14), •GND (pins 22, 24, 26) signals.
|
The EA comes delivered together with the IEA-PS emulation adapter power supply, which simply plugs into the P2 header row, providing the necessary power supply for Emulation Adapter standalone operation. Double check that the power supply is configured properly for this particular Emulation Adapter.