No. | parte # | Fabricante | Descripción | Hoja de Datos |
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Rohm |
Compact medium speed thick film thermal printhead 1) The use of a special partial glaze and the latest heating element structure, along with new high-density driver chips that can accept big current, has allowed ROHM to achieve print speeds of 250mm/s, the fastest in its class. 2) One rank resistanc |
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Rohm |
Compact medium speed thick film thermal printhead 1) The use of a special partial glaze and the latest heating element structure, along with new high-density driver chips that can accept big current, has allowed ROHM to achieve print speeds of 250mm/s with using thermal history control, the fastest |
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Rohm |
Thick film thermal printhead 1) Newly developed thick-film fast response thermal element and driver LSI with the function of thermal history control which is added the future history control are employed for this series. It is possible to print with super high speed of 10 inches |
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Rohm |
Thick film thermal printhead 1) Newly developed thick-film fast response thermal element is employed for this series and 6 inches / s or 150 mm / s is possible without thermal history control. It is possible to print 10 inches / s or 250 mm / s if external thermal history contro |
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Rohm |
Compact medium speed thick film thermal printhead 1) The use of a special partial glaze and the latest heating element structure, along with new high-density driver chips that can accept big current, has allowed ROHM to achieve print speeds of 250mm/s with using thermal history control, the fastest |
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Rohm |
Compact medium speed thick film thermal printhead 1) Using a special compact partial glaze and new heating element structure, achieves high-speed printing at 125 mm/s. 2) The use of the newly developed highly-durable conductive protective film has improved countermeasures against static electricity. |
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Rohm |
Thick film thermal printhead 1) Newly developed thick-film fast response thermal element is employed for this series and 6 inches/s or 150 mm/s is possible without thermal history control. It is possible to print 10 inches/s or 250 mm/s if external thermal history control is use |
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Rohm |
Compact medium speed thick film thermal printhead 1) Both ROHM’s advanced LSI technology and proprietary partial glaze are used to realize higher printing efficiency. With a high print speed of 100mm/s, this series is also suitable for thermal transfer printing. 2) Besides the fact that harness-type |
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Rohm |
Compact medium speed thick film thermal printhead 1) Using a special compact partial glaze and new heating element structure, achieves high-speed printing at 150 mm/s. 2) The use of the newly developed highly-durable conductive protective film has improved countermeasures against static electricity. |
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|
|
Rohm |
Thick film thermal printhead 1) Newly developed thick-film fast response thermal element is employed for this series and 6 inches / s or 150 mm / s is possible without thermal history control. It is possible to print 10 inches / s or 250 mm / s if external thermal history contro |
|
|
|
Rohm |
Thick film thermal printhead 1) Newly developed thick-film fast response thermal element and driver LSI with the function of thermal history control which is added the future history control are employed for this series. It is possible to print with super high speed of 10 inches |
|
|
|
Rohm |
Compact medium speed thick film thermal printhead 1) The use of a special partial glaze and the latest heating element structure, along with new high-density driver chips that can accept big current, has allowed ROHM to achieve print speeds of 250mm/s, the fastest in its class. 2) One rank resistanc |
|
|
|
Rohm |
Compact medium speed thick film thermal printhead 1) Both ROHM’s advanced LSI technology and proprietary partial glaze are used to realize higher printing efficiency. With a high print speed of 100mm/s, this series is also suitable for thermal transfer printing. 2) Besides the fact that harness-type |
|
|
|
Rohm |
Compact medium speed thick film thermal printhead 1) Using a special compact partial glaze and new heating element structure, achieves high-speed printing at 150 mm/s. 2) The use of the newly developed highly-durable conductive protective film has improved countermeasures against static electricity. |
|
|
|
Rohm |
Thick film thermal printhead 1) Newly developed thick-film fast response thermal element and driver LSI with the function of thermal history control which is added the future history control are employed for this series. It is possible to print with super high speed of 10 inches |
|
|
|
Rohm |
Compact medium speed thick film thermal printhead 1) The use of a special partial glaze and the latest heating element structure, along with new high-density driver chips that can accept big current, has allowed ROHM to achieve print speeds of 250mm/s with using thermal history control, the fastest |
|
|
|
Rohm |
Compact medium speed thick film thermal printhead 1) The use of a special partial glaze and the latest heating element structure, along with new high-density driver chips that can accept big current, has allowed ROHM to achieve print speeds of 250mm/s, the fastest in its class. 2) One rank resistanc |
|
|
|
Rohm |
Compact medium speed thick film thermal printhead 1) Both ROHM’s advanced LSI technology and proprietary partial glaze are used to realize higher printing efficiency. With a high print speed of 100mm/s, this series is also suitable for thermal transfer printing. 2) Besides the fact that harness-type |
|
|
|
Rohm |
Compact medium speed thick film thermal printhead 1) Using a special compact partial glaze and new heating element structure, achieves high-speed printing at 150 mm/s. 2) The use of the newly developed highly-durable conductive protective film has improved countermeasures against static electricity. |
|
|
|
Rohm |
Thick film thermal printhead 1) Newly developed thick-film fast response thermal element is employed for this series and 6 inches / s or 150mm / s is possible without thermal history control. It is possible to print 10 inches / s or 250mm / s if external thermal history control |
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